Biochemical characterization of RAD52-mediated D-loop formation using fluorophore-labeled DNA substrates
Kamoi, K.; Saotome, M.; Kinoshita, C.; Tsuchiya, R.; Kagawa, W.
Show abstract
The human RAD52 protein is thought to have multiple roles in the mechanisms of repairing DNA double-strand breaks that are caused by replication errors and reactive oxygen species. One such role is to mediate the formation of a displacement loop (D-loop), which is a critical reaction intermediate in homologous recombinational repair. RAD52 is suggested to promote the formation of D-loops when facilitating DNA synthesis at stalled or collapsed replication forks during mitosis. However, RAD52-mediated D-loop formation remains poorly characterized, and the detailed molecular mechanism of the D-loop formation reaction catalyzed by RAD52 is still unclear. In the present study, we developed a gel-based assay that enables rapid detection of RAD52-mediated D-loop formation. This assay utilizes a fluorophore-labeled, single-stranded DNA substrate. In addition to the rapid detection of D-loops, D-loop extension was observed when DNA polymerase was added to the reaction. This assay can also be used for screening large numbers of compounds that either stimulate or inhibit RAD52-mediated D-loop formation. The D-loop formation assay developed in this study is potentially useful for mechanistic studies of DSB repair involving RAD52-mediated D-loop formation, as well as for screening compounds with potential therapeutic effects.
Matching journals
The top 6 journals account for 50% of the predicted probability mass.