Ubiquitin protease Ubp1 cooperates with Ubp10 and Ubp12 to revert lysine-164 PCNA ubiquitylation at replication forks.

Abstract

Proliferating cell nuclear antigen (PCNA) is essential for the faithful duplication of eukaryotic genomes. PCNA also orchestrates events necessary to address threats to genomic integrity, such as the DNA damage tolerance (DDT) response, a mechanism by which eukaryotic cells bypass replication-blocking lesions to maintain replisome stability. DDT is regulated by the ubiquitylation of PCNA and the consequent recruitment of specialized polymerases that ensure replication continuity. We have recently described that the deubiquitylases Ubp10 and Ubp12 modulate DDT events by reverting the ubiquitylation of PCNA in Saccharomyces cerevisiae. This study identifies Ubp1 as a novel PCNA deubiquitylase that cooperates with Ubp10 and Ubp12 in the regulation of DDT during DNA replication. Ubp1, previously known as a cytoplasmic protein, also localizes to the nucleus, where it associates with DNA replication forks. Additionally, Ubp1 interacts with and deubiquitylates PCNA. Here, we provide evidence that Ubp1 collaborates with Ubp10 and Ubp12 to facilitate DNA replication by efficiently reverting PCNAK164 ubiquitylation at replication forks under conditions free from exogenous perturbations. Consequently, the deletion of UBP1, UBP10, and UBP12 leads to persistent ubiquitylation of PCNAK164 and a marked delay in S phase progression.