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Proc Natl Acad Sci U S A ; 112(48): E6624-33, 2015 Dec 01.
Article in English | MEDLINE | ID: mdl-26627254

ABSTRACT

After UV irradiation, DNA polymerases specialized in translesion DNA synthesis (TLS) aid DNA replication. However, it is unclear whether other mechanisms also facilitate the elongation of UV-damaged DNA. We wondered if Rad51 recombinase (Rad51), a factor that escorts replication forks, aids replication across UV lesions. We found that depletion of Rad51 impairs S-phase progression and increases cell death after UV irradiation. Interestingly, Rad51 and the TLS polymerase polη modulate the elongation of nascent DNA in different ways, suggesting that DNA elongation after UV irradiation does not exclusively rely on TLS events. In particular, Rad51 protects the DNA synthesized immediately before UV irradiation from degradation and avoids excessive elongation of nascent DNA after UV irradiation. In Rad51-depleted samples, the degradation of DNA was limited to the first minutes after UV irradiation and required the exonuclease activity of the double strand break repair nuclease (Mre11). The persistent dysregulation of nascent DNA elongation after Rad51 knockdown required Mre11, but not its exonuclease activity, and PrimPol, a DNA polymerase with primase activity. By showing a crucial contribution of Rad51 to the synthesis of nascent DNA, our results reveal an unanticipated complexity in the regulation of DNA elongation across UV-damaged templates.


Subject(s)
DNA Breaks, Double-Stranded , DNA Primase/physiology , DNA-Binding Proteins/physiology , DNA-Directed DNA Polymerase/physiology , DNA/radiation effects , Multifunctional Enzymes/physiology , Rad51 Recombinase/physiology , Ultraviolet Rays , Cell Cycle , Cell Death , Cell Line, Tumor , Cell Survival , DNA Repair , DNA Replication , DNA-Directed DNA Polymerase/metabolism , Disease Progression , Dose-Response Relationship, Radiation , HeLa Cells , Humans , MRE11 Homologue Protein , RNA, Small Interfering/metabolism
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