Regulation and function of H3K36 di-methylation by the trithorax-group protein complex AMC

Sigrun Schm?hling; Arno Meiler; Yoonjung Lee; Arif Mohammed; Katja Finkl; Katharina Tauscher; Lars Israel; Marc Wirth; Julia Philippou-Massier; Helmut Blum; Bianca Habermann; Axel Imhof; Ji-Joon Song; Jürg Müller

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Regulation and function of H3K36 di-methylation by the trithorax-group protein complex AMC

机译：三孔基蛋白复合AMC的H3K36二甲基化的调节和功能

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The Drosophila Ash1 protein is a trithorax-group (trxG) regulator that antagonizes Polycomb repression at HOX genes. Ash1 di-methylates lysine 36 in histone H3 (H3K36me2) but how this activity is controlled and at which genes it functions is not well understood. We show that Ash1 protein purified from Drosophila exists in a complex with MRG15 and Caf1 that we named AMC. In Drosophila and human AMC, MRG15 binds a conserved FxLP motif near the Ash1 SET domain and stimulates H3K36 di-methylation on nucleosomes. Drosophila MRG15-null and ash1 catalytic mutants show remarkably specific trxG phenotypes: stochastic loss of HOX gene expression and homeotic transformations in adults. In mutants lacking AMC, H3K36me2 bulk levels appear undiminished but H3K36me2 is reduced in the chromatin of HOX and other AMC-regulated genes. AMC therefore appears to act on top of the H3K36me2/me3 landscape generated by the major H3K36 methyltransferases NSD and Set2. Our analyses suggest that H3K36 di-methylation at HOX genes is the crucial physiological function of AMC and the mechanism by which the complex antagonizes Polycomb repression at these genes.

机译：果蝇Ash1蛋白是拮抗Hox基因的Polycomb抑制的三胞嘧啶组（TRXG）调节剂。 Ash1在组蛋白H3（H3K36ME2）中的赖氨酸赖氨酸36，但是如何控制该活性，并且在其功能的基因上不太了解。我们表明，从果蝇纯化的灰烬1蛋白质存在于与我们命名的MRG15和CAF1的复合物中。在果蝇和人AMC中，MRG15在ASH1设定结构域附近结合保守的FXLP基序，并刺激H3K36在核体上的脱甲基化。果蝇MRG15-NULL和ASH1催化突变体显示出显着的特异性TRXG表型：成人中HOX基因表达的随机损失和归属化转化。在缺乏AMC的突变体中，H3K36ME2散装水平出现不明显，但H3K36ME2在Hox和其他AMC调节基因的染色质中降低。因此，AMC似乎在主要H3K36甲基转移酶NSD和Set2产生的H3K36ME2 / ME3景观之上。我们的分析表明，HOX基因的H3K36二甲基化是AMC的关键生理功能，以及该机制的机制，通过该机制在这些基因处复杂的拮抗多元组织抑制。

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《Development》 |2018年第7期|共1页
作者
Sigrun Schm?hling; Arno Meiler; Yoonjung Lee; Arif Mohammed; Katja Finkl; Katharina Tauscher; Lars Israel; Marc Wirth; Julia Philippou-Massier; Helmut Blum; Bianca Habermann; Axel Imhof; Ji-Joon Song; Jürg Müller;
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作者单位

Max-Planck Institute of Biochemistry Laboratory of Chromatin Biology Am Klopferspitz 18 82152;

Max-Planck Institute of Biochemistry Computational Biology Am Klopferspitz 18 82152 Martinsried;

Korea Advanced Institute of Science and Technology (KAIST) Department of Biological Sciences;

Max-Planck Institute of Biochemistry Laboratory of Chromatin Biology Am Klopferspitz 18 82152;

Max-Planck Institute of Biochemistry Laboratory of Chromatin Biology Am Klopferspitz 18 82152;

Max-Planck Institute of Biochemistry Laboratory of Chromatin Biology Am Klopferspitz 18 82152;

Zentrallabor für Proteinanalytik BioMedical Center Ludwig-Maximilians-University Munich Gro;

Zentrallabor für Proteinanalytik BioMedical Center Ludwig-Maximilians-University Munich Gro;

Laboratory for Functional Genome Analysis (LAFUGA) Gene Center Ludwig-Maximilians-Universit?t M;

Laboratory for Functional Genome Analysis (LAFUGA) Gene Center Ludwig-Maximilians-Universit?t M;

Max-Planck Institute of Biochemistry Computational Biology Am Klopferspitz 18 82152 Martinsried;

Zentrallabor für Proteinanalytik BioMedical Center Ludwig-Maximilians-University Munich Gro;

Korea Advanced Institute of Science and Technology (KAIST) Department of Biological Sciences;

Max-Planck Institute of Biochemistry Laboratory of Chromatin Biology Am Klopferspitz 18 82152;

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原文格式 PDF
正文语种 eng
中图分类人体形态学;
关键词
Trithorax group; Ash1; MRG15; Histone H3K36 methylation; Drosophila;

机译：Trithorax组;ASH1;MRG15;组蛋白H3K36甲基化;果蝇;
入库时间 2022-08-19 19:17:16

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1. Regulation and function of H3K36 di-methylation by the trithorax-group protein complex AMC [J] . Sigrun Schm?hling, Arno Meiler, Yoonjung Lee, Development . 2018,第7期

机译：三孔基蛋白复合AMC的H3K36二甲基化的调节和功能
2. The role of 3 ' UTR-protein complexes in the regulation of protein multifunctionality and subcellular localization [J] . Ribeiro Diogo M., Prodhomme Alexis, Teixeira Adrien, Nucleic Acids Research . 2020,第12期

机译：3'UTR蛋白复合物在蛋白质多功能和亚细胞定位调节中的作用
3. The role of 3′UTR-protein complexes in the regulation of protein multifunctionality and subcellular localization [J] . Diogo M Ribeiro, Alexis Prod’homme, Adrien Teixeira, Nucleic acids research . 2020,第12期

机译：3'UTR-蛋白复合物在蛋白质多功能和亚细胞定位调节中的作用
4. Explore the domain features of co-regulation proteins, co-interaction proteins and co-regulation Co-interaction proteins [C] . Hua Lin, Liu Yongbin, Gao Lei, 2011 4th International Conference on Biomedical Engineering and Informatics . 2011

机译：探索共同调节蛋白，共同相互作用蛋白以及共同调节和共同相互作用蛋白的域特征
5. Examining the Biological Functions of the H3K36 Methylation States in Transcription Regulation and the Post-Translational Modification Landscape of Set2 [D] . DiFiore, Julia Veronica. 2020

机译：检查转录调节中H3K36甲基化状态的生物学功能及Set2的翻译后修改景观
6. Regulation and function of H3K36 di-methylation by the trithorax-group protein complex AMC [O] . Sigrun Schmähling, Arno Meiler, Yoonjung Lee, -1

机译：三胸腺蛋白复合物AMC对H3K36二甲基化的调控和功能
7. JNK signaling: Regulation and functions based on complex protein-protein partnerships [O] . Zeke A., Misheva M., Reményi Attila, 2016

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Regulation and function of H3K36 di-methylation by the trithorax-group protein complex AMC

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