Meik Sacher scite author profile

Damaged DNA, if not repaired before replication, can lead to replication fork stalling and genomic instability; however, cells can switch to different damage bypass modes that permit replication across lesions. Two main bypasses are controlled by ubiquitin modification of proliferating cell nuclear antigen (PCNA), a homotrimeric DNA-encircling protein that functions as a polymerase processivity factor and regulator of replication-linked functions. Upon DNA damage, PCNA is modified at the conserved lysine residue 164 by either mono-ubiquitin or a lysine-63-linked multi-ubiquitin chain, which induce error-prone or error-free replication bypasses of the lesions. In S phase, even in the absence of exogenous DNA damage, yeast PCNA can be alternatively modified by the small ubiquitin-related modifier protein SUMO; however the consequences of this remain controversial. Here we show by genetic analysis that SUMO-modified PCNA functionally cooperates with Srs2, a helicase that blocks recombinational repair by disrupting Rad51 nucleoprotein filaments. Moreover, Srs2 displays a preference for interacting directly with the SUMO-modified form of PCNA, owing to a specific binding site in its carboxy-terminal tail. Our finding suggests a model in which SUMO-modified PCNA recruits Srs2 in S phase in order to prevent unwanted recombination events of replicating chromosomes.

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The Smc5–Smc6 complex and SUMO modification of Rad52 regulates recombinational repair at the ribosomal gene locus

Torres-Rosell

et al. 2007

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Homologous recombination (HR) is crucial for maintaining genome integrity by repairing DNA double-strand breaks (DSBs) and rescuing collapsed replication forks. In contrast, uncontrolled HR can lead to chromosome translocations, loss of heterozygosity, and deletion of repetitive sequences. Controlled HR is particularly important for the preservation of repetitive sequences of the ribosomal gene (rDNA) cluster. Here we show that recombinational repair of a DSB in rDNA in Saccharomyces cerevisiae involves the transient relocalization of the lesion to associate with the recombination machinery at an extranucleolar site. The nucleolar exclusion of Rad52 recombination foci entails Mre11 and Smc5-Smc6 complexes and depends on Rad52 SUMO (small ubiquitin-related modifier) modification. Remarkably, mutations that abrogate these activities result in the formation of Rad52 foci within the nucleolus and cause rDNA hyperrecombination and the excision of extrachromosomal rDNA circles. Our study also suggests a key role of sumoylation for nucleolar dynamics, perhaps in the compartmentalization of nuclear activities.

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Control of Rad52 recombination activity by double-strand break-induced SUMO modification

et al. 2006

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Homologous recombination is essential for genetic exchange, meiosis and error-free repair of double-strand breaks. Central to this process is Rad52, a conserved homo-oligomeric ring-shaped protein, which mediates the exchange of the early recombination factor RPA by Rad51 and promotes strand annealing. Here, we report that Rad52 of Saccharomyces cerevisiae is modified by the ubiquitin-like protein SUMO, primarily at two sites that flank the conserved Rad52 domain. Sumoylation is induced on DNA damage and triggered by Mre11-Rad50-Xrs2 (MRX) complex-governed double-strand breaks (DSBs). Although sumoylation-defective Rad52 is largely recombination proficient, mutant analysis revealed that the SUMO modification sustains Rad52 activity and concomitantly shelters the protein from accelerated proteasomal degradation. Furthermore, our data indicate that sumoylation becomes particularly relevant for those Rad52 molecules that are engaged in recombination.

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Respiration of Arsenate and Selenate by Hyperthermophilic Archaea

Huber

Sacher

Vollmann

et al. 2000

Systematic and Applied Microbiology

194

108

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Meik Sacher

SUMO-modified PCNA recruits Srs2 to prevent recombination during S phase

The Smc5–Smc6 complex and SUMO modification of Rad52 regulates recombinational repair at the ribosomal gene locus

Control of Rad52 recombination activity by double-strand break-induced SUMO modification

Respiration of Arsenate and Selenate by Hyperthermophilic Archaea

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