Abstract
Nuclear actin filaments (F-actin) form during S-phase and in response to replication stress to promote fork remodeling and repair. In mild replication stress conditions, nuclear actin polymerization is required to limit PrimPol recruitment to the fork while promoting fork reversal. Both short and long filaments form during this response, but their function in the nuclear dynamics of replication sites was unclear. Here, we show that replication centers associated with long nuclear actin filaments become more mobile than the rest of the forks, suggesting relocalization of replication sites as a response to prolonged fork stalling and/or fork breakage, even in response to mild replication stress.