Global crotonylome reveals CDYL-regulated RPA1 crotonylation in homologous recombination–mediated DNA repair

Huajing Yu(Ministry of Education), Chen Bu(New England Biolabs (China)), Yuncheng Liu(Ministry of Education), Tianyu Gong(Ministry of Education), Xiaoping Liu(Ministry of Education), Shumeng Liu(Capital Medical University), Xiaojun Peng(New England Biolabs (China)), Wenting Zhang(Ministry of Education), Yani Peng(Ministry of Education), Jianguo Yang(Ministry of Education), Lin He(Ministry of Education), Yu Zhang(Ministry of Education), Xia Yi(Ministry of Education), Xiaohan Yang(Ministry of Education), Luyang Sun(Ministry of Education), Yongfeng Shang(Capital Medical University), Zhongyi Cheng(New England Biolabs (China)), Jing Liang(Ministry of Education)
Science Advances
March 13, 2020
10.1126/sciadv.aay4697
Cited by 157Open Access
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Abstract

Previously, we reported that chromodomain Y-like (CDYL) acts as a crotonyl-coenzyme A hydratase and negatively regulates histone crotonylation (Kcr). However, the global CDYL-regulated crotonylome remains unclear. Here, we report a large-scale proteomics analysis for protein Kcr. We identify 14,311 Kcr sites across 3734 proteins in HeLa cells, providing by far the largest crotonylome dataset. We show that depletion of CDYL alters crotonylome landscape affecting diverse cellular pathways. Specifically, CDYL negatively regulated Kcr of RPA1, and mutation of the Kcr sites of RPA1 impaired its interaction with single-stranded DNA and/or with components of resection machinery, supporting a key role of RPA1 Kcr in homologous recombination DNA repair. Together, our study indicates that protein crotonylation has important implication in various pathophysiological processes.

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