Quiescent Saccharomyces cerevisiae forms telomere hyperclusters at the nuclear membrane vicinity through a multifaceted mechanism involving Esc1, the Sir complex,and chromatin condensation |
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Authors: | Damien Laporte Fabien Courtout Sylvain Tollis Isabelle Sagot |
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Institution: | University of North Carolina;aUniversité de Bordeaux–Institut de Biochimie et Génétique Cellulaires, 33000 Bordeaux, France;bCNRS–UMR5095 Bordeaux, 33077 Bordeaux cedex, France;cWellcome Trust Centre for Cell Biology, University of Edinburgh, Edinburgh EH93BF, United Kingdom |
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Abstract: | Like other eukaryotes, Saccharomyces cerevisiae spatially organizes its chromosomes within the nucleus. In G1 phase, the yeast’s 32 telomeres are clustered into 6–10 foci that dynamically interact with the nuclear membrane. Here we show that, when cells leave the division cycle and enter quiescence, telomeres gather into two to three hyperclusters at the nuclear membrane vicinity. This localization depends on Esc1 but not on the Ku proteins. Telomere hypercluster formation requires the Sir complex but is independent of the nuclear microtubule bundle that specifically assembles in quiescent cells. Importantly, mutants deleted for the linker histone H1 Hho1 or defective in condensin activity or affected for histone H4 Lys-16 deacetylation are impaired, at least in part, for telomere hypercluster formation in quiescence, suggesting that this process involves chromosome condensation. Finally, we establish that telomere hypercluster formation is not necessary for quiescence establishment, maintenance, and exit, raising the question of the physiological raison d’être of this nuclear reorganization. |
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