Histone H2A Ubiquitination Reinforces Mechanical Stability and Asymmetry at the Single-Nucleosome Level
Xiao Xue, Liu Cuifang, Pei Yingxin, Wang Yi-Zhou, Kong Jingwei, Lu Ke, Ma Lu, Dou Shuo-Xing, Wang Peng-Ye, Li Guohong
Abstract
Monoubiquitination at lysine 119 of histone H2A (ubH2A) is a prevalent post-translational modification that is associated with gene repression in the context of chromatin. However, the direct function of ubH2A on nucleosome is poorly understood. Here we identified the effect of ubH2A on nucleosome using single-molecule magnetic tweezers. We revealed that ubH2A stabilizes the nucleosome by blocking thepeeling of DNA from the histone octamer. Each ubH2A reinforces one-half of the outer wrap and introduces a robust asymmetry for nucleosome unfolding. Furthermore, a real-time deubiquitination process confirmed that ubH2A-nucleosome is sequentially deubiquitinated and restored to the unmodified nucleosome state. These results provide a novel mechanism to understand the repression of the passage of RNA or DNA polymerases through the ubH2A-nucleosome barrier during gene transcription or replication.
最新重要论文
Histone H2A Ubiquitination Reinforces Mechanical Stability and Asymmetry at the Single-Nucleosome Level, JACS, 05 Feb 2020
Journal of the American Chemical Society, 05 February, 2020,DOI:https://10.1021/jacs.9b12448
Histone H2A Ubiquitination Reinforces Mechanical Stability and Asymmetry at the Single-Nucleosome Level
Xiao Xue, Liu Cuifang, Pei Yingxin, Wang Yi-Zhou, Kong Jingwei, Lu Ke, Ma Lu, Dou Shuo-Xing, Wang Peng-Ye, Li Guohong
Abstract
Monoubiquitination at lysine 119 of histone H2A (ubH2A) is a prevalent post-translational modification that is associated with gene repression in the context of chromatin. However, the direct function of ubH2A on nucleosome is poorly understood. Here we identified the effect of ubH2A on nucleosome using single-molecule magnetic tweezers. We revealed that ubH2A stabilizes the nucleosome by blocking thepeeling of DNA from the histone octamer. Each ubH2A reinforces one-half of the outer wrap and introduces a robust asymmetry for nucleosome unfolding. Furthermore, a real-time deubiquitination process confirmed that ubH2A-nucleosome is sequentially deubiquitinated and restored to the unmodified nucleosome state. These results provide a novel mechanism to understand the repression of the passage of RNA or DNA polymerases through the ubH2A-nucleosome barrier during gene transcription or replication.
文章链接:https://pubs.acs.org/doi/10.1021/jacs.9b12448
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