Probing the Structure and Function of Polymerase θ Helicase-Like Domain

Authors

Scott Vanson
Yuzhen Li
Richard D Wood
Sylvie Doublié

Publication Date

8-1-2022

Journal

DNA Repair

Abstract

DNA Polymerase θ is the key actuator of the recently identified double-strand break repair pathway, theta-mediated end joining (TMEJ). It is the only known polymerase to have a 3-domain architecture containing an independently functional family A DNA polymerase tethered by a long central region to an N-terminal helicase-like domain (HLD). Full-length polymerase θ and the isolated HLD hydrolyze ATP in the presence of DNA, but no processive DNA duplex unwinding has been observed. Based on sequence and structure conservation, the HLD is classified as a member of helicase superfamily II and, more specifically, the Ski2-like family. The specific subdomain composition and organization most closely resemble that of archaeal DNA repair helicases Hel308 and Hjm. The underlying structural basis as to why the HLD is not able to processively unwind duplex DNA, despite its similarity to bona fide helicases, remains elusive. Activities of the HLD include ATP hydrolysis, protein displacement, and annealing of complementary DNA. These observations have led to speculation about the role of the HLD within the context of double-strand break repair via TMEJ, such as removal of single-stranded DNA binding proteins like RPA and RAD51 and microhomology alignment. This review summarizes the structural classification and organization of the polymerase θ HLD and its homologs and explores emerging data on its biochemical activities. We conclude with a simple, speculative model for the HLD's role in TMEJ.

Keywords

Adenosine Triphosphate, DNA, DNA Repair, DNA, Single-Stranded, Double-strand break, Helicase, Polymerase θ, Translocase.

DOI

10.1016/j.dnarep.2022.103358

PMID

35753097

PMCID

PMC10329254

PubMedCentral® Posted Date

8-1-2023

PubMedCentral® Full Text Version

Author MSS

Published Open-Access

yes