Processive activity of the replicative DNA polymerases in the replisome of live eukaryotic cells

DNA replication is carried out by a multi-protein machine called the replisome. In Saccharomyces cerevisiae , the replisome is composed of over 30 different proteins arranged into multiple subassemblies, each performing distinct activities. Synchrony of these activities is required for efficient replication and preservation of genomic integrity. How this is achieved is particularly puzzling at the lagging strand, where current models of the replisome architecture propose turnover of the canonical lagging strand polymerase, Pol δ, at every cycle of Okazaki fragment synthesis. Here we established single-molecule fluorescence microscopy protocols to study the binding kinetics of individual replisome subunits in live S. cerevisiae . Our results show long residence times for most subunits at the active replisome, supporting a model where all subassemblies bind tightly and work in a coordinated manner for extended periods, including Pol δ, hence redefining the architecture of the active eukaryotic replisome. ### Competing Interest Statement The authors have declared no competing interest.