Abstract
The Rev1 deoxycytidyl transferase functions as a scaffold protein for DNA polymerase ζ (Pol ζ)-mediated translesion synthesis (TLS). Biochemical studies with yeast enzymes indicate that Rev1 plays a dual regulatory role in TLS, stimulating Pol ζ activity at sites of damage but inhibiting its activity on undamaged DNA. An evolutionary conserved N-terminal alpha-helical motif (M1), located 10-20 amino acids upstream of Rev1's single BRCT domain, is required for the inhibitory activity of Rev1 on undamaged DNA. Mutations in the M1 motif result in a stimulation of Pol ζ replication activity on both undamaged and damaged DNA. Yeast cells carrying a REV1 mutant lacking the M1 motif, show a significant increase in mutation track length, without significantly affecting overall spontaneous mutation rates. The regulatory activity of Rev1 is independent of its catalytic activity. However, it requires that Rev1-Pol ζ is a stable complex, and that this complex is coordinated by the replication clamp PCNA.