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Global histone acetylation and deacetylation in yeast

Author

Listed:
  • Maria Vogelauer

    (UCLA School of Medicine and the Molecular Biology Institute, Boyer Hall, University of California)

  • Jiansheng Wu

    (UCLA School of Medicine and the Molecular Biology Institute, Boyer Hall, University of California)

  • Noriyuki Suka

    (UCLA School of Medicine and the Molecular Biology Institute, Boyer Hall, University of California)

  • Michael Grunstein

    (UCLA School of Medicine and the Molecular Biology Institute, Boyer Hall, University of California)

Abstract

Histone acetyltransferases and deacetylases can be targeted to promoters to activate or repress genes. For example, the histone acetyltransferase GCN5 is part of a yeast multiprotein complex that is recruited by the DNA-binding activator protein GCN4 (refs 1, 2,3). The histone deacetylase RPD3 complex is recruited to DNA by the repressor UME6 (refs 4, 5); similar mechanisms exist in other eukaryotes6. However, deletion of RPD3 also increases expression of the PHO5 gene7 that is repressed by nucleosomes8,9, and regulated by GCN5 (ref. 10) but not by UME6. We have determined whether acetylation and deacetylation are promoter specific at PHO5, by using antibodies against acetylated lysine residues and chromatin immunoprecipitation to examine the acetylation state of a 4.25-kilobase region surrounding the PHO5 gene. Here we show that this region is acetylated extensively by ESA1 and GCN5 and deacetylated by HDA1 and RPD3, and that widespread histone modification affects three separate chromosomal regions examined, which total 22 kb. Our data indicate that targeted modification occurs in a background of global acetylation and deacetylation that not only reduces basal transcription, but also allows a rapid return to the initial state of acetylation when targeting is removed.

Suggested Citation

  • Maria Vogelauer & Jiansheng Wu & Noriyuki Suka & Michael Grunstein, 2000. "Global histone acetylation and deacetylation in yeast," Nature, Nature, vol. 408(6811), pages 495-498, November.
  • Handle: RePEc:nat:nature:v:408:y:2000:i:6811:d:10.1038_35044127
    DOI: 10.1038/35044127
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    Cited by:

    1. Ziad Ibrahim & Tao Wang & Olivier Destaing & Nicola Salvi & Naghmeh Hoghoughi & Clovis Chabert & Alexandra Rusu & Jinjun Gao & Leonardo Feletto & Nicolas Reynoird & Thomas Schalch & Yingming Zhao & Ma, 2022. "Structural insights into p300 regulation and acetylation-dependent genome organisation," Nature Communications, Nature, vol. 13(1), pages 1-23, December.

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