Replication fork barriers to study site-specific DNA replication perturbation

Abstract

DNA replication ensures the complete and accurate duplication of the genome. The traditional approach to analysing perturbation of DNA replication is to use chemical inhibitors, such as hydroxyurea or aphidicolin, that slow or stall replication fork progression throughout the genome. An alternative approach is to perturb replication at a single site in the genome that permits a more forensic investigation of the cellular response to the stalling or disruption of a replication fork. This has been achieved in several organisms using different systems that share the common feature of utilizing the high affinity binding of a protein to a defined DNA sequence that is integrated into a specific locus in the host genome. Protein-mediated replication fork blocking systems of this sort have proven very valuable in defining how cells cope with encountering a barrier to fork progression. In this review, we compare protein-based replication fork barrier systems from different organisms that have been developed to generate site-specific replication fork perturbation.