Ku-deficient yeast strains exhibit alternative states of silencing competence
Résumé
In Saccharomyces cerevisiae, efficient silencer function requires telomere proximity, i.e. compartments of the nucleo-plasm enriched in silencing factors. Accordingly, silencers located far from telomeres function inefficiently. We show here that cells lacking yKu balance between two mitotically stable states of silencing competence. In one, a partial delocal-ization of telomeres and silencing factors throughout the nucleoplasm correlates with enhanced silencing at a non-telo-meric locus, while in the other, telomeres retain their focal pattern of distribution and there is no repression at the non-telomeric locus, as observed in wild-type cells. The two states also differ in their level of residual telomeric silencing. These findings indicate the existence of a yKu-independent pathway of telomere clustering and Sir localization. Interestingly, this pathway appears to be under epigenetic control.
Domaines
Génétique
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Maillet et al. - 2001 - Ku-deficient yeast strains exhibit alternative sta.pdf (340.29 Ko)
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