依赖乙酰化的SAGA复合物二聚化促进核小体乙酰化和基因转录。

Acetylation-dependent SAGA complex dimerization promotes nucleosome acetylation and gene transcription.

作者信息

Huang Junhua, Dai Wenjing, Xiao Duncheng, Xiong Qian, Liu Cuifang, Hu Jie, Ge Feng, Yu Xilan, Li Shanshan

机构信息

State Key Laboratory of Biocatalysis and Enzyme Engineering, College of Life Sciences, Hubei University, Wuhan, China.

Key Laboratory of Algal Biology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan, China.

出版信息

Nat Struct Mol Biol. 2022 Mar;29(3):261-273. doi: 10.1038/s41594-022-00736-4. Epub 2022 Mar 17.

DOI:10.1038/s41594-022-00736-4

PMID:35301489

Abstract

Cells reprogram their transcriptomes to adapt to external conditions. The SAGA (Spt-Ada-Gcn5 acetyltransferase) complex is a highly conserved transcriptional coactivator that plays essential roles in cell growth and development, in part by acetylating histones. Here, we uncover an autoregulatory mechanism of the Saccharomyces cerevisiae SAGA complex in response to environmental changes. Specifically, the SAGA complex acetylates its Ada3 subunit at three sites (lysines 8, 14 and 182) that are dynamically deacetylated by Rpd3. The acetylated Ada3 lysine residues are bound by bromodomains within SAGA subunits Gcn5 and Spt7 that synergistically facilitate formation of SAGA homo-dimers. Ada3-mediated dimerization is enhanced when cells are grown under sucrose or under phosphate-starvation conditions. Once dimerized, SAGA efficiently acetylates nucleosomes, promotes gene transcription and enhances cell resistance to stress. Collectively, our work reveals a mechanism for regulation of SAGA structure and activity and provides insights into how cells adapt to environmental conditions.

摘要

细胞会重新编程其转录组以适应外部条件。SAGA（Spt-Ada-Gcn5乙酰转移酶）复合物是一种高度保守的转录共激活因子，在细胞生长和发育中发挥着重要作用，部分原因是通过乙酰化组蛋白来实现。在这里，我们揭示了酿酒酵母SAGA复合物响应环境变化的一种自我调节机制。具体而言，SAGA复合物在三个位点（赖氨酸8、14和182）对其Ada3亚基进行乙酰化，而Rpd3会动态地使这些位点去乙酰化。乙酰化的Ada3赖氨酸残基被SAGA亚基Gcn5和Spt7内的溴结构域结合，这些溴结构域协同促进SAGA同型二聚体的形成。当细胞在蔗糖或磷酸盐饥饿条件下生长时，Ada3介导的二聚化会增强。一旦二聚化，SAGA就能有效地乙酰化核小体，促进基因转录并增强细胞对压力的抗性。总的来说，我们的工作揭示了一种调节SAGA结构和活性的机制，并为细胞如何适应环境条件提供了见解。

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依赖乙酰化的SAGA复合物二聚化促进核小体乙酰化和基因转录。

Acetylation-dependent SAGA complex dimerization promotes nucleosome acetylation and gene transcription.

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