Interaction between DNA polymerase λ and RPA during translesion synthesis

Replication of damaged DNA (translesion synthesis, TLS) is realized by specialized DNA polymerases. Additional protein factors such as replication protein A (RPA) play important roles in this process. However, details of the interaction are unknown. Here we analyzed the influence of the hRPA and its mutant hABCD lacking domains responsible for protein-protein interactions on ability of DNA polymerase λ to catalyze TLS. The primer-template structures containing varying parts of extended strand (16 and 37 nt) were used as model systems imitating DNA intermediate of first stage of TLS. The 8-oxoguanine disposed in +1 position of the template strand in relation to 3′-end of primer was exploited as damage. It was shown that RPA stimulated TLS DNA synthesis catalyzed by DNA polymerase λ in its globular but not in extended conformation. Moreover, this effect is dependent on the presence of p70N and p32C domains in RPA molecule.