蛋白质(组蛋白)甲基化酶的结构和序列基序。

Xiaodong Cheng, Robert E Collins, Xing Zhang
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引用次数: 336

摘要

随着生物医学研究中使用的模式生物的基因组测序接近完成,人们迅速认识到蛋白质组学,蛋白质共价修饰和转录调控的研究可能会在未来十年占据研究头条。蛋白质甲基化在这两个领域都起着核心作用,因为细胞中有几种不同的残基(Arg, Lys, Gln)被甲基化,甲基化在调节染色质结构和影响转录的“组蛋白密码”中起着核心作用。在某些情况下,单个赖氨酸可以被单甲基化、二甲基化或三甲基化,这三种形式中的每一种都具有不同的功能结果。本文综述了两个具有完全不同结构支架的酶家族(SET蛋白和Dot1p)对组蛋白赖氨酸残基的甲基化和PRMTs对蛋白质精氨酸残基的甲基化的结构方面的研究。
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Structural and sequence motifs of protein (histone) methylation enzymes.

With genome sequencing nearing completion for the model organisms used in biomedical research, there is a rapidly growing appreciation that proteomics, the study of covalent modification to proteins, and transcriptional regulation will likely dominate the research headlines in the next decade. Protein methylation plays a central role in both of these fields, as several different residues (Arg, Lys, Gln) are methylated in cells and methylation plays a central role in the "histone code" that regulates chromatin structure and impacts transcription. In some cases, a single lysine can be mono-, di-, or trimethylated, with different functional consequences for each of the three forms. This review describes structural aspects of methylation of histone lysine residues by two enzyme families with entirely different structural scaffolding (the SET proteins and Dot1p) and methylation of protein arginine residues by PRMTs.

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