2017
DOI: 10.1083/jcb.201610071
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Cell cycle–dependent spatial segregation of telomerase from sites of DNA damage

Abstract: Telomerase can generate a novel telomere at a DNA break, with potentially lethal consequences for the cell. Ouenzar et al. reveal novel roles for Pif1, Rad52, and Siz1-dependent sumoylation in the spatial exclusion of telomerase from sites of DNA repair during the cell cycle.

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Cited by 13 publications
(26 citation statements)
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“…damage-induced foci is reduced [26,46]. However, while we observe that rad52Δ is epistatic to rad51Δ for de novo telomere addition (Fig 1B), the TLC1 RNA localization phenotype of the rad51Δ strain is epistatic to that observed upon loss of RAD52 [46].…”
Section: Discussionmentioning
confidence: 58%
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“…damage-induced foci is reduced [26,46]. However, while we observe that rad52Δ is epistatic to rad51Δ for de novo telomere addition (Fig 1B), the TLC1 RNA localization phenotype of the rad51Δ strain is epistatic to that observed upon loss of RAD52 [46].…”
Section: Discussionmentioning
confidence: 58%
“…Rad52 enforces nucleolar localization, which may sequester telomerase from double-strand breaks. In contrast to cells lacking Rad52 function, which display increased nucleoplasmic localization of TLC1 after DNA damage, cells lacking RAD51 show little relocalization of TLC1 RNA to the nucleoplasm [46] and association of Cdc13 with DNA Because the GCR frequency of the rfa1-44 strain is significantly higher than WT on both chromosomes 5 and 9, the absolute GCR frequency in each region of chromosome 9 (C) or 5 (D) is shown from the same experiments as panel A. Values are averages from three independent experiments with standard deviation.…”
Section: Discussionmentioning
confidence: 71%
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“…ScPif1 removes telomerase by interacting directly with the finger domain of the telomerase subunit Est2 [136]. Recently, ScPif1 was found to regulate telomere elongation by affecting the spatial distribution of telomerase components by segregating the limiting component of telomerase, the RNA TLC1, to the nucleolus [44]. While it is known how ScPif1 removes telomerase from telomere DNA, the mechanism of sequestering it to the nucleolus remains to be identified.…”
Section: Telomere Length Maintenancementioning
confidence: 99%