UHRF1 的串联 Tudor 和 PHD 结构域与组蛋白的多价结合对于 DNA 甲基化的表观遗传遗传是必需的。
Multivalent histone engagement by the linked tandem Tudor and PHD domains of UHRF1 is required for the epigenetic inheritance of DNA methylation.
机构信息
Department of Biochemistry and Biophysics, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA.
出版信息
Genes Dev. 2013 Jun 1;27(11):1288-98. doi: 10.1101/gad.220467.113.
Abstract
Histone post-translational modifications regulate chromatin structure and function largely through interactions with effector proteins that often contain multiple histone-binding domains. While significant progress has been made characterizing individual effector domains, the role of paired domains and how they function in a combinatorial fashion within chromatin are poorly defined. Here we show that the linked tandem Tudor and plant homeodomain (PHD) of UHRF1 (ubiquitin-like PHD and RING finger domain-containing protein 1) operates as a functional unit in cells, providing a defined combinatorial readout of a heterochromatin signature within a single histone H3 tail that is essential for UHRF1-directed epigenetic inheritance of DNA methylation. These findings provide critical support for the "histone code" hypothesis, demonstrating that multivalent histone engagement plays a key role in driving a fundamental downstream biological event in chromatin.
摘要
组蛋白翻译后修饰主要通过与效应蛋白的相互作用来调节染色质结构和功能,而这些效应蛋白通常含有多个组蛋白结合域。虽然在表征单个效应结构域方面已经取得了显著进展,但配对结构域的作用以及它们在染色质中组合方式的功能仍未得到明确定义。在这里,我们表明 UHRF1(泛素样 PHD 和 RING 指结构域蛋白 1)的串联 Tudor 和植物同源结构域(PHD)在细胞中作为一个功能单元发挥作用,为单个组蛋白 H3 尾部内的异染色质特征提供了一个明确的组合读出,这对于 UHRF1 指导的 DNA 甲基化表观遗传遗传至关重要。这些发现为“组蛋白密码”假说提供了关键支持,表明多价组蛋白结合在驱动染色质中基本的下游生物学事件中发挥着关键作用。
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