A Targeted Histone Acetyltransferase Can Create a Sizable Region of Hyperacetylated Chromatin and Counteract the Propagation of Transcriptionally Silent Chromatin

A Targeted Histone Acetyltransferase Can Create a Sizable Region of Hyperacetylated Chromatin and Counteract the Propagation of Transcriptionally Silent Chromatin

Ya-Hui Chiu^a, Qun Yu^a, Joseph J. Sandmeier^a, and Xin Bi^a
^a Department of Biochemistry, University of Nebraska, Lincoln, Nebraska 68588

Corresponding author: Xin Bi, University of Rochester, Rochester, NY 14627., xinbi{at}mail.rochester.edu (E-mail)

Communicating editor: M. HAMPSEY

Transcriptionally silent chromatin is associated with reducedhistone acetylation and its propagation depends on histone hypoacetylationpromoted by histone deacetylases. We show that tethered histoneacetyltransferase (HAT) Esa1p or Gcn5p creates a segment ofhyperacetylated chromatin that is at least 2.6 kb in size andcounteracts transcriptional silencing that emanates from a silencerin yeast. Esa1p and Gcn5p counteract URA3 silencing even whenthey are targeted 1.7 kb downstream of the promoter and >2.0kb from the silencer. The anti-silencing effect of a targetedHAT is strengthened by increasing the number of targeting sites,but impaired by events that enhance silencing. A tethered HATcan also counteract telomeric silencing. The anti-silencingeffect of Gcn5p is abolished by a mutation that eliminated itsHAT activity or by deleting the ADA2 gene encoding a structuralcomponent of Gcn5p-containing HAT complexes. These results demonstratethat a tethered HAT complex can create a sizable region of histonehyperacetylation and serve as a barrier to encroaching repressivechromatin.

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