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The PCNA-associated protein PARI negatively regulates homologous recombination via the inhibition of DNA repair synthesis.

Nucleic acids research (2016-01-23)
Peter Burkovics, Lili Dome, Szilvia Juhasz, Veronika Altmannova, Marek Sebesta, Martin Pacesa, Kasper Fugger, Claus Storgaard Sorensen, Marietta Y W T Lee, Lajos Haracska, Lumir Krejci
RÉSUMÉ

Successful and accurate completion of the replication of damage-containing DNA requires mainly recombination and RAD18-dependent DNA damage tolerance pathways. RAD18 governs at least two distinct mechanisms: translesion synthesis (TLS) and template switching (TS)-dependent pathways. Whereas TS is mainly error-free, TLS can work in an error-prone manner and, as such, the regulation of these pathways requires tight control to prevent DNA errors and potentially oncogenic transformation and tumorigenesis. In humans, the PCNA-associated recombination inhibitor (PARI) protein has recently been shown to inhibit homologous recombination (HR) events. Here, we describe a biochemical mechanism in which PARI functions as an HR regulator after replication fork stalling and during double-strand break repair. In our reconstituted biochemical system, we show that PARI inhibits DNA repair synthesis during recombination events in a PCNA interaction-dependent way but independently of its UvrD-like helicase domain. In accordance, we demonstrate that PARI inhibits HR in vivo, and its knockdown suppresses the UV sensitivity of RAD18-depleted cells. Our data reveal a novel human regulatory mechanism that limits the extent of HR and represents a new potential target for anticancer therapy.

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Anticorps monoclonal ANTI-FLAG® M2-peroxydase (HRP) antibody produced in mouse, clone M2, purified immunoglobulin, buffered aqueous glycerol solution
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Demecolcine solution, 10 μg/mL in HBSS, ACF Qualified, BioXtra