Please use this identifier to cite or link to this item:http://hdl.handle.net/20.500.12105/12177
Title
PrimPol-dependent single-stranded gap formation mediates homologous recombination at bulky DNA adducts.
Author(s)
Date issued
2020-11-11
Citation
Nat Commun.2020 ;11(1):5863.
Language
Inglés
Document type
journal article
Abstract
Stalled replication forks can be restarted and repaired by RAD51-mediated homologous recombination (HR), but HR can also perform post-replicative repair after bypass of the obstacle. Bulky DNA adducts are important replication-blocking lesions, but it is unknown whether they activate HR at stalled forks or behind ongoing forks. Using mainly BPDE-DNA adducts as model lesions, we show that HR induced by bulky adducts in mammalian cells predominantly occurs at post-replicative gaps formed by the DNA/RNA primase PrimPol. RAD51 recruitment under these conditions does not result from fork stalling, but rather occurs at gaps formed by PrimPol re-priming and resection by MRE11 and EXO1. In contrast, RAD51 loading at double-strand breaks does not require PrimPol. At bulky adducts, PrimPol promotes sister chromatid exchange and genetic recombination. Our data support that HR at bulky adducts in mammalian cells involves post-replicative gap repair and define a role for PrimPol in HR-mediated DNA damage tolerance.
MESH
4-Nitroquinoline-1-oxide | 7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide | Benz(a)Anthracenes | Cell Line | DNA Adducts | DNA Primase | DNA, Single-Stranded | DNA-Directed DNA Polymerase | Homologous Recombination | Humans | Multifunctional Enzymes | Quinolones | Rad51 Recombinase | Single Molecule Imaging | Sister Chromatid Exchange
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