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MRE11-RAD50-NBS1 promotes Fanconi Anemia R-loop suppression at transcription-replication conflicts.

Nature communications (2019-09-21)
Emily Yun-Chia Chang, Shuhe Tsai, Maria J Aristizabal, James P Wells, Yan Coulombe, Franciele F Busatto, Yujia A Chan, Arun Kumar, Yi Dan Zhu, Alan Ying-Hsu Wang, Louis-Alexandre Fournier, Philip Hieter, Michael S Kobor, Jean-Yves Masson, Peter C Stirling
RÉSUMÉ

Ectopic R-loop accumulation causes DNA replication stress and genome instability. To avoid these outcomes, cells possess a range of anti-R-loop mechanisms, including RNaseH that degrades the RNA moiety in R-loops. To comprehensively identify anti-R-loop mechanisms, we performed a genome-wide trigenic interaction screen in yeast lacking RNH1 and RNH201. We identified >100 genes critical for fitness in the absence of RNaseH, which were enriched for DNA replication fork maintenance factors including the MRE11-RAD50-NBS1 (MRN) complex. While MRN has been shown to promote R-loops at DNA double-strand breaks, we show that it suppresses R-loops and associated DNA damage at transcription-replication conflicts. This occurs through a non-nucleolytic function of MRE11 that is important for R-loop suppression by the Fanconi Anemia pathway. This work establishes a novel role for MRE11-RAD50-NBS1 in directing tolerance mechanisms at transcription-replication conflicts.

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