Structure and mechanism of B-family DNA polymerase ζ specialized for translesion DNA synthesis

DNA polymerase ζ (Polζ) belongs to the same B-family as high-fidelity replicative polymerases, yet is specialized for the extension reaction in translesion DNA synthesis (TLS). Despite its importance in TLS, the structure of Polζ is unknown. We present cryo-EM structures of the Saccharomyces cerevisiae Polζ holoenzyme in the act of DNA synthesis (3.1 Å) and without DNA (4.1 Å). Polζ displays a pentameric ring-like architecture, with catalytic Rev3, accessory Pol31‚ Pol32 and two Rev7 subunits forming an uninterrupted daisy chain of protein–protein interactions. We also uncover the features that impose high fidelity during the nucleotide-incorporation step and those that accommodate mismatches and lesions during the extension reaction. Collectively, we decrypt the molecular underpinnings of Polζ’s role in TLS and provide a framework for new cancer therapeutics. Cryo-EM structures of free and DNA-bound pol ζ holoenzyme from budding yeast reveal how this DNA polymerase ensures fidelity and facilitates lesion bypass during translesion DNA synthesis.