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The conserved HDAC Rpd3 drives transcriptional quiescence in S. cerevisiae.


ABSTRACT: Quiescence is a ubiquitous cell cycle stage conserved from microbes through humans and is essential to normal cellular function and response to changing environmental conditions. We recently reported a massive repressive event associated with quiescence in Saccharomyces cerevisiae, where Rpd3 establishes repressive chromatin structure that drives transcriptional shutoff [6]. Here, we describe in detail the experimental procedures, data collection, and data analysis related to our characterization of transcriptional quiescence in budding yeast (GEO: GSE67151). Our results provide a bona fide molecular event driven by widespread changes in chromatin structure through action of Rpd3 that distinguishes quiescence as a unique cell cycle stage in S. cerevisiae.

SUBMITTER: McKnight JN 

PROVIDER: S-EPMC4664762 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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The conserved HDAC Rpd3 drives transcriptional quiescence in S. cerevisiae.

McKnight Jeffrey N JN   Tsukiyama Toshio T  

Genomics data 20151017


Quiescence is a ubiquitous cell cycle stage conserved from microbes through humans and is essential to normal cellular function and response to changing environmental conditions. We recently reported a massive repressive event associated with quiescence in Saccharomyces cerevisiae, where Rpd3 establishes repressive chromatin structure that drives transcriptional shutoff [6]. Here, we describe in detail the experimental procedures, data collection, and data analysis related to our characterizatio  ...[more]

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