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SIR proteins
Jasper D. Rine, Phd FASEB Board of Directors
Telomeric Heterochromatin Boundaries Require Nua4-Dependent Acetylation of Histone Variant H2A.Z in Saccharomyces Cerevisiae
Histone H3 N-Terminus Regulates Higher Order Structure of Yeast
Sir3-Independent Binding of a Sir2/Sir4 Complex to Silencers and Role for Sir2-Dependent Deacetylation Georg J
A Green Link to RNA Silencing
Mechanism for Epigenetic Variegation of Gene Expression at Yeast Telomeric Heterochromatin
Genome-Wide, As Opposed to Local, Antisilencing Is Mediated Redundantly by the Euchromatic Factors Set1 and H2A.Z
Transcriptional Silencing and Longevity Protein Sir2 Is an NAD-Dependent
Telomere Position Effect: Silencing Near the End
Lysine Methylation Within the Globular Domain of Histone H3 by Dot1 Is Important for Telomeric Silencing and Sir Protein Association
Modulations of SIR-Nucleosome Interactions of Reconstructed Yeast Silent Pre-Heterochromatin by O-Acetyl-ADP-Ribose and Magnesium
The SIR2 Gene Family, Conserved from Bacteria to Humans, Functions in Silencing, Cell Cycle Progiression, and Chromosome Stability
SIR Proteins Create Compact Heterochromatin Fibers
A SIR-Independent Role for Cohesin in Subtelomeric Silencing and Organization
Rpd3-Dependent Boundary Formation at Telomeres by Removal of Sir2 Substrate
The Yeast Heterochromatin Protein Sir3 Experienced Functional Changes in the AAA+ Domain After Gene Duplication and Subfunctionalization
Transcriptional Silencing in Yeast Is Associated with Reduced Nucleosome Acetylation
Transcriptional Silencing at Saccharomyces Telomeres: Implications for Other Organisms
Top View
Sir2 Links Chromatin Silencing, Metabolism, and Aging
Telomeric Heterochromatin Boundaries Require Nua4-Dependent Acetylation of Histone Variant H2A.Z in Saccharomy Cescerevisiae
The Solution-State Conformation of Sir Heterochromatin: a Dissertation
Mol Cell Biol 2005 Rudner.Pdf
Yeast Silencers Can Act As Orientation-Dependent Gene Inactivation Centers That Respond to Environmental Signals
A Region of the Nucleosome Required for Multiple Types of Transcriptional Silencing in Saccharomyces Cerevisiae
The Chromatin and Transcriptional Landscape of Native Saccharomyces Cerevisiae Telomeres and Subtelomeric Domains
The Molecular Topography of Silenced Chromatin in Saccharomyces Cerevisiae
Sirtuins in Stress Response: Guardians of the Genome
605.Full.Pdf
Mating-Type Gene Switching in Saccharomyces Cerevisiae
Modeling of Chromosomal Epigenetic Silencing Processes
A Sirtuin in the African Trypanosome Is Involved in Both DNA Repair and Telomeric Gene Silencing but Is Not Required for Antigenic Variation
A Role for Telomere Proximity and Sir Protein Concentration In
SIR Paper-Final
Histone Deacetylases with Antagonistic Roles in Saccharomyces Cerevisiae
The Budding Yeast Silencing Protein Sir1 Is a Functional Component of Centromeric Chromatin
Cooperative Binding of Sir Proteins to Nucleosomes and Its Implications for Silent Chromatin Assembly in Saccharomyces Cerevisiae