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SLFN5-mediated chromatin dynamics sculpt higherorder DNA repair topology

molecular cell. 2023-04; 
Jinzhou Huang, Chenming Wu, Jake A Kloeber, Huanyao Gao, Ming Gao, Qian Zhu, Yiming Chang, Fei Zhao, Guijie Guo, Kuntian Luo, Haiming Dai, Sijia Liu, Qiru Huang, Wootae Kim, Qin Zhou, Shouhai Zhu, Zheming Wu, Xinyi Tu, Ping Yin, Min Deng, Liewei Wang, Jian Yuan, Zhenkun Lou
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CRISPR RNAs/Cas9 Proteins(INACTIVE) lentiCRISPRv2-sgRNA targeting Slfn5 (sense: TTGCCAAAGCGCCCGATTCC) Genscript N/A Get A Quote

摘要

Repair of DNA double-strand breaks (DSBs) elicits three-dimensional (3D) chromatin topological changes. A recent finding reveals that 53BP1 assembles into a 3D chromatin topology pattern around DSBs. How this formation of a higher-order structure is configured and regulated remains enigmatic. Here, we report that SLFN5 is a critical factor for 53BP1 topological arrangement at DSBs. Using super-resolution imaging, we find that SLFN5 binds to 53BP1 chromatin domains to assemble a higher-order microdomain architecture by driving damaged chromatin dynamics at both DSBs and deprotected telomeres. Mechanistically, we propose that 53BP1 topology is shaped by two processes: (1) chromatin mobility driven by the SLFN5-LI... More

关键词

53BP1; DNA double-strand break repair; PARP inhibitor sensitivity; SLFN5; chromatin mobility; chromatin topology; class switch recombination; non-homologous end joining; super-resolution microscopy; telomere fusions.