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Nejvíce citovaný článek - PubMed ID 11425518

Záznam nenalezen v Medvik. Navštivte PubMed 11425518

Článek

Pro-recombination Role of Srs2 Protein Requires SUMO (Small Ubiquitin-like Modifier) but Is Independent of PCNA (Proliferating Cell Nuclear Antigen) Interaction

Kolesar, Peter
Autor Kolesar, Peter From the Department of Biology and National Centre for Biomolecular Research, Masaryk University, 62500 Brno, Czech Republic
Altmannova, Veronika
Autor Altmannova, Veronika From the Department of Biology and
Silva, Sonia
Autor Silva, Sonia the Department of Biology, University of Copenhagen, Copenhagen 2200, Denmark, and
Lisby, Michael
Autor Lisby, Michael the Department of Biology, University of Copenhagen, Copenhagen 2200, Denmark, and
Krejci, Lumir
Autor Krejci, Lumir From the Department of Biology and National Centre for Biomolecular Research, Masaryk University, 62500 Brno, Czech Republic, the International Clinical Research Center, Center for Biomolecular and Cellular Engineering, St. Anne's University Hospital in Brno, 60200 Brno, Czech Republic lkrejci@chemi.muni.cz

The Journal of biological chemistry. 2016 Apr 01 ; 291 (14) : 7594-607. [epub] 20160209

J Biol Chem
ISSN 1083-351X | 0021-9258
Zdroj

Srs2 plays many roles in DNA repair, the proper regulation and coordination of which is essential. Post-translational modification by small ubiquitin-like modifier (SUMO) is one such possible mechanism. Here, we investigate the role of SUMO in Srs2 regulation and show that the SUMO-interacting motif (SIM) of Srs2 is important for the interaction with several recombination factors. Lack of SIM, but not proliferating cell nuclear antigen (PCNA)-interacting motif (PIM), leads to increased cell death under circumstances requiring homologous recombination for DNA repair. Simultaneous mutation of SIM in asrs2ΔPIMstrain leads to a decrease in recombination, indicating a pro-recombination role of SUMO. Thus SIM has an ambivalent function in Srs2 regulation; it not only mediates interaction with SUMO-PCNA to promote the anti-recombination function but it also plays a PCNA-independent pro-recombination role, probably by stimulating the formation of recombination complexes. The fact that deletion of PIM suppresses the phenotypes of Srs2 lacking SIM suggests that proper balance between the anti-recombination PCNA-bound and pro-recombination pools of Srs2 is crucial. Notably, sumoylation of Srs2 itself specifically stimulates recombination at the rDNA locus.

Článek

Srs2 promotes Mus81-Mms4-mediated resolution of recombination intermediates

Nucleic acids research. 2015 Apr 20 ; 43 (7) : 3626-42. [epub] 20150312

Nucleic Acids Res
ISSN 1362-4962 | 0305-1048
Zdroj

A variety of DNA lesions, secondary DNA structures or topological stress within the DNA template may lead to stalling of the replication fork. Recovery of such forks is essential for the maintenance of genomic stability. The structure-specific endonuclease Mus81-Mms4 has been implicated in processing DNA intermediates that arise from collapsed forks and homologous recombination. According to previous genetic studies, the Srs2 helicase may play a role in the repair of double-strand breaks and ssDNA gaps together with Mus81-Mms4. In this study, we show that the Srs2 and Mus81-Mms4 proteins physically interact in vitro and in vivo and we map the interaction domains within the Srs2 and Mus81 proteins. Further, we show that Srs2 plays a dual role in the stimulation of the Mus81-Mms4 nuclease activity on a variety of DNA substrates. First, Srs2 directly stimulates Mus81-Mms4 nuclease activity independent of its helicase activity. Second, Srs2 removes Rad51 from DNA to allow access of Mus81-Mms4 to cleave DNA. Concomitantly, Mus81-Mms4 inhibits the helicase activity of Srs2. Taken together, our data point to a coordinated role of Mus81-Mms4 and Srs2 in processing of recombination as well as replication intermediates.

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