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RPA mediates recombination repair during replication stress and is displaced from DNA by checkpoint signalling in human cells
KM Sleeth, CS Sorensen, N Issaeva, J Dziegielewski, J Bartek, T Helleday
Language English Country England, Great Britain
PubMed
17765923
Knihovny.cz E-resources
- MeSH
- Enzyme Activation MeSH
- Genes, cdc MeSH
- Rad52 DNA Repair and Recombination Protein genetics metabolism MeSH
- Hydroxyurea metabolism MeSH
- Nucleic Acid Synthesis Inhibitors metabolism MeSH
- Humans MeSH
- Cell Line, Tumor MeSH
- DNA Repair * MeSH
- DNA Damage MeSH
- Protein Kinases genetics metabolism MeSH
- Rad51 Recombinase metabolism MeSH
- DNA Replication * MeSH
- Replication Protein A genetics metabolism MeSH
- Signal Transduction * physiology MeSH
- Check Tag
- Humans MeSH
The replication protein A (RPA) is involved in most, if not all, nuclear metabolism involving single-stranded DNA. Here, we show that RPA is involved in genome maintenance at stalled replication forks by the homologous recombination repair system in humans. Depletion of the RPA protein inhibited the formation of RAD51 nuclear foci after hydroxyurea-induced replication stalling leading to persistent unrepaired DNA double-strand breaks (DSBs). We demonstrate a direct role of RPA in homology directed recombination repair. We find that RPA is dispensable for checkpoint kinase 1 (Chk1) activation and that RPA directly binds RAD52 upon replication stress, suggesting a direct role in recombination repair. In addition we show that inhibition of Chk1 with UCN-01 decreases dissociation of RPA from the chromatin and inhibits association of RAD51 and RAD52 with DNA. Altogether, our data suggest a direct role of RPA in homologous recombination in assembly of the RAD51 and RAD52 proteins. Furthermore, our data suggest that replacement of RPA with the RAD51 and RAD52 proteins is affected by checkpoint signalling.
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- $a The replication protein A (RPA) is involved in most, if not all, nuclear metabolism involving single-stranded DNA. Here, we show that RPA is involved in genome maintenance at stalled replication forks by the homologous recombination repair system in humans. Depletion of the RPA protein inhibited the formation of RAD51 nuclear foci after hydroxyurea-induced replication stalling leading to persistent unrepaired DNA double-strand breaks (DSBs). We demonstrate a direct role of RPA in homology directed recombination repair. We find that RPA is dispensable for checkpoint kinase 1 (Chk1) activation and that RPA directly binds RAD52 upon replication stress, suggesting a direct role in recombination repair. In addition we show that inhibition of Chk1 with UCN-01 decreases dissociation of RPA from the chromatin and inhibits association of RAD51 and RAD52 with DNA. Altogether, our data suggest a direct role of RPA in homologous recombination in assembly of the RAD51 and RAD52 proteins. Furthermore, our data suggest that replacement of RPA with the RAD51 and RAD52 proteins is affected by checkpoint signalling.
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