Molecular basis for oncohistone 113 recognition by SETD2 methyltransferase

Yang Shuang; Zheng Xiangdong; Lu Chao; Li Guo-Min; Allis C. David; Li Haitao

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Molecular basis for oncohistone 113 recognition by SETD2 methyltransferase

机译：SETD2甲基转移酶识别癌蛋白113的分子基础

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High-frequency point mutations of genes encoding his tones have been identified recently as novel drivers in a number of tumors. Specifically, the H3K36M/I mutations were shown to be oncogenic in chondroblastomas and undifferentiated sarcomas by inhibiting H3K36 methyltransferases, including SETD2. Here we report the crystal structures of the SETD2 catalytic domain bound to H3K36M or H3K36I peptides with SAH (5-adenosylhomocysteine). In the complex structure, the catalytic domain adopts an open conformation, with the K36M/I peptide snuggly positioned in a newly formed substrate channel. Our structural and biochemical data reveal the molecular basis underying oncohistone recognition by and inhibition of SETD2.

机译：最近，已确定编码他的音调的基因的高频点突变是许多肿瘤中的新型驱动程序。具体而言，H3K36M / I突变通过抑制H3K36甲基转移酶（包括SETD2）在软骨母细胞瘤和未分化肉瘤中显示出致癌作用。在这里，我们报告与SAH（5-腺苷同型半胱氨酸）绑定到H3K36M或H3K36I肽的SETD2催化域的晶体结构。在复杂的结构中，催化结构域采用开放构象，K36M / I肽紧紧地位于新形成的底物通道中。我们的结构和生化数据揭示了通过SETD2抑制和抑制肿瘤组织蛋白的分子基础。

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《Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses》 |2016年第14期|共6页
作者
Yang Shuang; Zheng Xiangdong; Lu Chao; Li Guo-Min; Allis C. David; Li Haitao;
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正文语种 eng
中图分类医学遗传学;
关键词
oncohistone; SETD2 methyltransferase; crystal structure; epigenetic regulation;

机译：癌蛋白;SETD2甲基转移酶;晶体结构;表观遗传调控;

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1. Molecular basis for oncohistone 113 recognition by SETD2 methyltransferase [J] . Yang Shuang, Zheng Xiangdong, Lu Chao, Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses . 2016,第14期

机译：SETD2甲基转移酶识别癌蛋白113的分子基础
2. Structure-function analyses and molecular modeling of caffeic acid-O-methyltransferase and caffeoyl-CoA-O-methyltransferase: Revisiting the basis of alternate methylation pathways during monolignol biosynthesis [J] . Naaz H., Pandey V.P., Singh S., Biotechnology and Applied Biochemistry . 2013,第2期

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3. Biochemical Studies and Molecular Dynamic Simulations Reveal the Molecular Basis of Conformational Changes in DNA Methyltransferase-1 [J] . Ye Fei, Kong Xiangqian, Zhang Hao, Journal of land use science . 2018,第1a3期

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5. The structural basis of DNA recognition and base extrusion by a DNA cytosine-5 methyltransferase M.HaeIII. [D] . Didovyk, Andriy. 2010

机译：DNA胞嘧啶5甲基转移酶M.HaeIII的DNA识别和碱基挤出的结构基础。
6. Molecular basis for oncohistone H3 recognition by SETD2 methyltransferase [O] . Shuang Yang, Xiangdong Zheng, Chao Lu, 2016

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7. Structure–function studies of tetrahydroprotoberberine N-methyltransferase reveal the molecular basis of stereoselective substrate recognition [O] . Dean E. Lang, Jeremy S. Morris, Michael Rowley, 2019

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Molecular basis for oncohistone 113 recognition by SETD2 methyltransferase

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