What question did this study set out to answer?

This research aims to investigate the role of ATR in translesion synthesis during DNA replication and its impact on chromosomal stability.

synapse

⌘+K

synapse

⌘+K

May 21, 2026Open Access

A new perspective on ATR's role in translesion synthesis

Key Points

This research aims to investigate the role of ATR in translesion synthesis during DNA replication and its impact on chromosomal stability.
Used noncancer human cell lines to assess the interaction between TLS and the replisome.
Investigated the stabilization effect of ATR on stalled replication forks.
TLS operates in close coordination with the replisome, enhancing DNA repair under stress.
ATR stabilizes the replisome at stalled replication forks, reducing the likelihood of chromosomal instability.

Abstract

During DNA replication, the physical and functional coupling of DNA unwinding by the CMG helicase with the DNA synthesis components of the replisome promotes highly efficient replication of the genome. What happens when the replication fork stalls at a DNA lesion? Do translesion synthesis (TLS) DNA polymerases operate in close coordination with the replisome or function independent of it; e.g., in daughter strand gaps? Using noncancer human cell lines, Yoon and colleagues (doi:10.1101/gad.353474.125) show that TLS operates in close coordination with the replisome and that ATR stabilizes the replisome at stalled replication forks; thus, TLS protects against chromosomal instability.

Read Full Paperexternally

Bookmark

View Full Paper

Cite This Study

Lindsey-Boltz et al. (Tue,) studied this question.

synapsesocial.com/papers/6a0ea17cbe05d6e3efb60371 https://doi.org/https://doi.org/10.1101/gad.353773.126

Bookmark

View Full Paper