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人类DPY-30样蛋白C端结构域的晶体结构:组蛋白甲基转移酶复合物的一个组成部分。

Crystal structure of the C-terminal domain of human DPY-30-like protein: A component of the histone methyltransferase complex.

作者信息

Wang Xianping, Lou Zhiyong, Dong Xiuhua, Yang Wen, Peng Yong, Yin Bin, Gong Yanhua, Yuan Jiangang, Zhou Weihong, Bartlam Mark, Peng Xiaozhong, Rao Zihe

机构信息

Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences/Peking Union Medical College, Beijing, China.

出版信息

J Mol Biol. 2009 Jul 17;390(3):530-7. doi: 10.1016/j.jmb.2009.05.061. Epub 2009 May 27.

Abstract

The conserved DPY-30 is an essential component of the dosage compensation complex that balances the X-linked gene expression by regulation of the complex formation in Caenorhabditis elegans. The human DPY-30-like protein (DPY-30L) homolog is a conserved member of certain histone methyltransferase (HMT) complexes. In the human MLL1 (mixed-lineage leukemia-1) HMT complex, DPY-30L binds to the BRE2 homolog ASH2L in order to regulate histone 3-lysine 4 trimethylation. We have determined the 1.2-A crystal structure of the human DPY-30L C-terminal domain (DPY-30L(C)). The DPY-30L(C) structure, harboring the conserved DPY-30 motif, is composed of two alpha-helices linked by a sharp loop and forms a typical X-type four-helix bundle required for dimer formation. DPY-30L(C) dimer formation is largely mediated by an extensive hydrophobic interface with some additional polar interactions. The oligomerization of DPY-30L(C) in solution, together with its reported binding to ASH2L, leads us to propose that the hydrophobic surface of the dimer may provide a platform for interaction with ASH2L in the MLL1 HMT complex.

摘要

保守的DPY-30是剂量补偿复合物的一个重要组成部分,该复合物通过调节秀丽隐杆线虫中的复合物形成来平衡X连锁基因的表达。人类DPY-30样蛋白(DPY-30L)同源物是某些组蛋白甲基转移酶(HMT)复合物的保守成员。在人类MLL1(混合谱系白血病-1)HMT复合物中,DPY-30L与BRE2同源物ASH2L结合,以调节组蛋白3-赖氨酸4三甲基化。我们已经确定了人类DPY-30L C末端结构域(DPY-30L(C))的1.2埃晶体结构。具有保守DPY-30基序的DPY-30L(C)结构由两个通过一个尖锐环连接的α螺旋组成,并形成二聚体形成所需的典型X型四螺旋束。DPY-30L(C)二聚体的形成主要由一个广泛的疏水界面介导,并伴有一些额外的极性相互作用。DPY-30L(C)在溶液中的寡聚化,以及其与ASH2L的结合报道,使我们提出二聚体的疏水表面可能为与MLL1 HMT复合物中的ASH2L相互作用提供一个平台。

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