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Transcriptional repression facilitates RNA:DNA hybrid accumulation at DNA double-strand breaks

Florian Saur, Emma Lesage, Lea Pradel, Sara B Collins, Anne-Laure Finoux, Emile Alghoul, Benjamin Le Bozec, Vincent Rocher, Romane Carette, Nadine Puget, Marie Couralet, Melanie Petiot, Thomas Clouaire, Aline Marnef, Gaëlle Legube

2025Nature Cell Biology21 citationsDOIOpen Access PDF

Abstract

RNA:DNA hybrids accumulate at DNA double-strand breaks (DSBs) and were shown to regulate homologous recombination repair. The mechanism responsible for the formation of these non-canonical RNA:DNA structures remains unclear although they were proposed to arise consequently to RNA polymerase II or III loading followed by DSB-induced de novo transcription at the break site. Here, we found no evidence of RNA polymerase recruitment at DSBs. Rather, strand-specific R-loop mapping revealed that RNA:DNA hybrids are mainly generated at DSBs occurring in transcribing loci, from the hybridization of pre-existing RNA to the 3' overhang left by DNA end resection. We further identified the H3K4me3 reader spindlin 1 and the transcriptional regulator PAF1 as factors promoting RNA:DNA hybrid accumulation at DSBs, through their role in mediating transcriptional repression in cis to DSBs. Altogether, we provide evidence that RNA:DNA hybrids accumulate at DSBs occurring in transcribing loci as a result of DSB-induced transcriptional shut down.

Topics & Concepts

BiologyRNAMolecular biologyTranscription (linguistics)DNACell biologyGeneticsGenePhilosophyLinguisticsDNA Repair MechanismsCRISPR and Genetic EngineeringRNA Research and Splicing