通过 RING1B C 端结构域不同结合伴侣靶向多梳抑制复合物。

Polycomb group targeting through different binding partners of RING1B C-terminal domain.

机构信息

Department of Biochemistry, University of Texas Health Science Center at San Antonio, MSC 7760, 7703 Floyd Curl Drive, San Antonio, TX 78229-3990, USA.

出版信息

Structure. 2010 Aug 11;18(8):966-75. doi: 10.1016/j.str.2010.04.013.

DOI:10.1016/j.str.2010.04.013

PMID:20696397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4445678/

Abstract

RING1B, a Polycomb Group (PcG) protein, binds methylated chromatin through its association with another PcG protein called Polycomb (Pc). However, RING1B can associate with nonmethylated chromatin suggesting an alternate mechanism for RING1B interaction with chromatin. Here, we demonstrate that two proteins with little sequence identity between them, the Pc cbox domain and RYBP, bind the same surface on the C-terminal domain of RING1B (C-RING1B). Pc cbox and RYBP each fold into a nearly identical, intermolecular beta sheet with C-RING1B and a loop structure which are completely different in the two proteins. Both the beta sheet and loop are required for stable binding and transcription repression. Further, a mutation engineered to disrupt binding on the Drosophila dRING1 protein prevents chromatin association and PcG function in vivo. These results suggest that PcG targeting to different chromatin locations relies, in part, on binding partners of C-RING1B that are diverse in sequence and structure.

摘要

RING1B 是一种多梳组（PcG）蛋白，通过与另一种称为 Polycomb（Pc）的 PcG 蛋白结合来结合甲基化染色质。然而，RING1B 可以与非甲基化染色质结合，这表明 RING1B 与染色质相互作用的另一种机制。在这里，我们证明了两个序列同一性很小的蛋白质，Pc cbox 结构域和 RYBP，结合 RING1B （C-RING1B）的 C 末端结构域上的相同表面。Pc cbox 和 RYBP 各自折叠成与 C-RING1B 几乎相同的分子间β片层和一个环结构，这两个蛋白质中的环结构完全不同。β片层和环都需要稳定结合和转录抑制。此外，一种设计用于破坏果蝇 dRING1 蛋白结合的突变，可阻止体内染色质结合和 PcG 功能。这些结果表明，PcG 靶向不同的染色质位置部分依赖于 C-RING1B 的结合伴侣，这些伴侣在序列和结构上是多样化的。

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