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Single-molecule imaging reveals the kinetics of non-homologous end-joining in living cells.

Authors :
Mikhova, Mariia
Goff, Noah J.
Janovič, Tomáš
Heyza, Joshua R.
Meek, Katheryn
Schmidt, Jens C.
Source :
Nature Communications; 11/23/2024, Vol. 15 Issue 1, p1-17, 17p
Publication Year :
2024

Abstract

Non-homologous end joining (NHEJ) is the predominant pathway that repairs DNA double-stranded breaks (DSBs) in vertebrates. However, due to challenges in detecting DSBs in living cells, the repair capacity of the NHEJ pathway is unknown. The DNA termini of many DSBs must be processed to allow ligation while minimizing genetic changes that result from break repair. Emerging models propose that DNA termini are first synapsed ~115 Å apart in one of several long-range synaptic complexes before transitioning into a short-range synaptic complex that juxtaposes DNA ends to facilitate ligation. The transition from long-range to short-range synaptic complexes involves both conformational and compositional changes of the NHEJ factors bound to the DNA break. Importantly, it is unclear how NHEJ proceeds in vivo because of the challenges involved in analyzing recruitment of NHEJ factors to DSBs over time in living cells. Here, we develop an approach to study the temporal and compositional dynamics of NHEJ complexes using live cell single-molecule imaging. Our results provide direct evidence for stepwise maturation of the NHEJ complex, pinpoint key regulatory steps in NHEJ progression, and allowed us to estimate the overall repair capacity of the NHEJ pathway in living cells. Non-homologous end joining repairs most double stranded DNA breaks in human cells. Here, the authors apply a single-molecule imaging approach visualizing the recruitment of DNA repair proteins to DNA breaks to define the kinetics of non-homologous end joining in living cells. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20411723
Volume :
15
Issue :
1
Database :
Complementary Index
Journal :
Nature Communications
Publication Type :
Academic Journal
Accession number :
181065373
Full Text :
https://doi.org/10.1038/s41467-024-54545-y