iScience (Aug 2018)

Phosphorylation Alters the Properties of Pol η: Implications for Translesion Synthesis

  • Chandana Peddu,
  • Sufang Zhang,
  • Hong Zhao,
  • Agnes Wong,
  • Ernest Y.C. Lee,
  • Marietta Y.W.T. Lee,
  • Zhongtao Zhang

Journal volume & issue
Vol. 6
pp. 52 – 67

Abstract

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Summary: There are significant ambiguities regarding how DNA polymerase η is recruited to DNA lesion sites in stressed cells while avoiding normal replication forks in non-stressed cells. Even less is known about the mechanisms responsible for Pol η-induced mutations in cancer genomes. We show that there are two safeguards to prevent Pol η from adventitious participation in normal DNA replication. These include sequestration by a partner protein and low basal activity. Upon cellular UV irradiation, phosphorylation enables Pol η to be released from sequestration by PDIP38 and activates its polymerase function through increased affinity toward monoubiquitinated proliferating cell nuclear antigen (Ub-PCNA). Moreover, the high-affinity binding of phosphorylated Pol η to Ub-PCNA limits its subsequent displacement by Pol δ. Consequently, activated Pol η replicates DNA beyond the lesion site and potentially introduces clusters of mutations due to its low fidelity. This mechanism could account for the prevalence of Pol η signatures in cancer genome. : Biochemistry; Molecular Biology; Molecular Genetics Subject Areas: Biochemistry, Molecular Biology, Molecular Genetics