2020
DOI: 10.1007/s00294-020-01081-z
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Emerging non-canonical roles for the Rad51–Rad52 interaction in response to double-strand breaks in yeast

Abstract: DNA double-strand break repair allows cells to survive both exogenous and endogenous insults to the genome. In yeast, the recombinases Rad51 and Rad52 are central to multiple forms of homology-dependent repair. Classically, Rad51 and Rad52 are thought to act cooperatively, with formation of the functional Rad51 nucleofilament facilitated by the mediator function of Rad52. Several studies have now identified functions for the interaction between Rad51 and Rad52 that are independent of the mediator function of R… Show more

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Cited by 11 publications
(16 citation statements)
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“…More recently, a total of seven additional hotspots of dnTA have been identified in yeast. Induction of HO cleavage at least 2 kb distal to these sequences results in telomere addition within the hotspot at a frequency ∼200-fold higher than in neighboring sequences, ruling out a model in which telomere addition at the hotspot is a simple consequence of chromosome fragility (Obodo et al, 2016;Ngo et al, 2020). We call such endogenous sequences Sites of Repair-associated Telomere Addition, or SiRTAs.…”
Section: Endogenous Sequences That Stimulate De Novo Telomere Additionmentioning
confidence: 99%
“…More recently, a total of seven additional hotspots of dnTA have been identified in yeast. Induction of HO cleavage at least 2 kb distal to these sequences results in telomere addition within the hotspot at a frequency ∼200-fold higher than in neighboring sequences, ruling out a model in which telomere addition at the hotspot is a simple consequence of chromosome fragility (Obodo et al, 2016;Ngo et al, 2020). We call such endogenous sequences Sites of Repair-associated Telomere Addition, or SiRTAs.…”
Section: Endogenous Sequences That Stimulate De Novo Telomere Additionmentioning
confidence: 99%
“…The observation that many of the telomere addition events associated with extrachromosomal SUL1 fragments cluster within a small (∼100 bp) region is reminiscent of sequences in the yeast genome that are hotspots of de novo telomere addition (termed SiRTAs or Sites of Repair-associated Telomere Addition) (Stellwagen et al 2003; Obodo et al 2016; Hoerr et al 2021). SiRTAs contain strand-specific, TG-rich sequence motifs (Obodo et al 2016; Ngo et al 2020). These motifs can provide a substrate for the acquisition of telomeric sequences if they become exposed in single-stranded DNA either as a result of 5’ end resection following a DSB or at nicks in single-stranded gaps.…”
Section: Resultsmentioning
confidence: 99%
“…Like telomeres, SiRTAs have an asymmetric sequence pattern in which one strand is relatively rich in T and G nucleotides (Obodo et al 2016; Ngo et al 2020). For telomerase to act upon a SiRTA, this TG-rich strand must be exposed in single-stranded DNA.…”
Section: Resultsmentioning
confidence: 99%
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