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Roles for the Cohibin Complex and its Associated Factors in the Maintenance of Several Silent Chromatin Domains in S. cerevisiaePoon, Betty Po Kei 26 November 2012 (has links)
In Saccharomyces cerevisiae, the telomeres and rDNA repeats are repetitive silent chromatin domains that are tightly regulated to maintain silencing and genome stability. Disruption of the Cohibin complex, which maintains rDNA silencing and stability, also abrogates telomere localization and silencing. Cohibin-deficient cells have decreased Sir2 localization at telomeres, and restoring telomeric Sir2 concentrations rescues the telomeric defects observed in Cohibin-deficient cells. Genetic and molecular interactions suggest that Cohibin clusters telomeres to the nuclear envelope by binding inner nuclear membrane proteins. Futhermore, telomeric and rDNA sequences can form G-quadruplex structures. G-quadruplexes are non-canonical DNA structures that have been linked to processes affecting chromosome stability. Disruption of the G-quadruplex stabilizing protein Stm1, which also interacts with Cohibin, increases rDNA stability without affecting silent chromatin formation. In all, our findings have led to the discovery of new processes involved in the maintenance of repetitive silent chromatin domains that may be conserved across eukaryotes.
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Roles for the Cohibin Complex and its Associated Factors in the Maintenance of Several Silent Chromatin Domains in S. cerevisiaePoon, Betty Po Kei 26 November 2012 (has links)
In Saccharomyces cerevisiae, the telomeres and rDNA repeats are repetitive silent chromatin domains that are tightly regulated to maintain silencing and genome stability. Disruption of the Cohibin complex, which maintains rDNA silencing and stability, also abrogates telomere localization and silencing. Cohibin-deficient cells have decreased Sir2 localization at telomeres, and restoring telomeric Sir2 concentrations rescues the telomeric defects observed in Cohibin-deficient cells. Genetic and molecular interactions suggest that Cohibin clusters telomeres to the nuclear envelope by binding inner nuclear membrane proteins. Futhermore, telomeric and rDNA sequences can form G-quadruplex structures. G-quadruplexes are non-canonical DNA structures that have been linked to processes affecting chromosome stability. Disruption of the G-quadruplex stabilizing protein Stm1, which also interacts with Cohibin, increases rDNA stability without affecting silent chromatin formation. In all, our findings have led to the discovery of new processes involved in the maintenance of repetitive silent chromatin domains that may be conserved across eukaryotes.
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