A new role of the Mus81 nuclease for replication completion after fork restart

Abstract

ABSTRACTImpediments to DNA replication threaten genome stability. The homologous recombination (HR) pathway is involved in the restart of blocked replication forks. Here, we used a new method to study at the molecular level the restart of replication in response to DNA topoisomerase I poisoning by camptothecin (CPT). We show that HR-mediated restart at the global genomic level occurs by a BIR-like mechanism that requires Rad52, Rad51 and Pol32. The Mus81 endonuclease, previously proposed to cleave blocked forks, is not required for replication restart in S phase but appears to be essential to resolve fork-associated recombination intermediates in G2/M as a step necessary to complete replication. We confirmed our results using an independent system that allowed us to conclude that this mechanism is independent of the accumulation of DNA supercoiling and DNA-protein crosslinks normally caused by CPT. Thus, we describe here a specific function for Mus81 in the processing of HR-restarted forks required to complete DNA replication.