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Mechanism of nucleosomal H2A K13/15 monoubiquitination and adjacent dual monoubiquitination by RNF168

Nature Chemical Biology. 2024-10; 
Huasong Ai , Zebin Tong , Zhiheng Deng , Qiang Shi, Shixian Tao , Gaoge Sun, Jiawei Liang , Maoshen Sun , Xiangwei Wu , Qingyun Zheng , Lujun Liang , Hang Yin , Jia-Bin Li , Shuai Gao , Changlin Tian , Lei Liu , Man Pan
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Gene Synthesis The complementary DNA of human RNF168, UbcH5c, RNF8 and SET8 was synthesized by GenScript Biotech (Nanjing, China) with sequence optimized for Escherichia coli overexpression. RNF168FL was cloned into the pGEX6P2 vector with an N-terminal GST–HRV3C tag Get A Quote
PCR and Cloning Get A Quote

摘要

The DNA damage repair regulatory protein RNF168, a monomeric RING-type E3 ligase, has a crucial role in regulating cell fate and DNA repair by specific and efficient ubiquitination of the adjacent K13 and K15 (K13/15) sites at the H2A N-terminal tail. However, understanding how RNF168 coordinates with its cognate E2 enzyme UbcH5c to site-specifically ubiquitinate H2A K13/15 has long been hampered by the lack of high-resolution structures of RNF168 and UbcH5c~Ub (ubiquitin) in complex with nucleosomes. Here we developed chemical strategies and determined the cryo-electron microscopy structures of the RNF168-UbcH5c~Ub-nucleosome complex captured in transient H2A K13/15 monoubiquitination and adjacent dual monoubi... More

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