Functional divergence between histone deacetylases in fission yeast by distinct cellular localization and in vivo specificity

Bjerling, P., Silverstein, R. A., Thon, G., Caudy, A., Grewal, S., Ekwall, K. (April 2002) Functional divergence between histone deacetylases in fission yeast by distinct cellular localization and in vivo specificity. Molecular and Cellular Biology, 22 (7). pp. 2170-2181. ISSN 0270-7306

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DOI: 10.1128/MCB.22.7.2170-2181.2002


Histone deacetylases (HDACs) are important for gene regulation and the maintenance of heterochromatin in eukaryotes. Schizosaccharomyces pombe was used as a model system to investigate the functional divergence within this conserved enzyme family. S. pombe has three HDACs encoded by the hda1+, clr3+, and clr6+ genes. Strains mutated in these genes have previously been shown to display strikingly different phenotypes when assayed for viability, chromosome loss, and silencing. Here, conserved differences in the substrate binding pocket identify Clr6 and Hda1 as class I HDACs, while Clr3 belongs in the class II family. Furthermore, these HDACs were shown to have strikingly different subcellular localization patterns. Hda1 was localized to the cytoplasm, while most of Clr3 resided throughout the nucleus. Finally, Clr6 was localized exclusively on the chromosomes in a spotted pattern. Interestingly, Clr3, the only HDAC present in the nucleolus, was required for ribosomal DNA (rDNA) silencing. Clr3 presumably acts directly on heterochromatin, since it colocalized with the centromere, mating-type region, and rDNA as visualized by in situ hybridization. In addition, Clr3 could be cross-linked to mat3 in chromatin immunoprecipitation experiments. Western analysis of bulk histone preparations indicated that Hda1 (class I) had a generally low level of activity in vivo and Clr6 (class I) had a high level of activity and broad in vivo substrate specificity, whereas Clr3 (class II) displayed its main activity on acetylated lysine 14 of histone H3. Thus, the distinct functions of the S. pombe HDACs are likely explained by their distinct cellular localization and their different in vivo specificities.

Item Type: Paper
Subjects: bioinformatics > genomics and proteomics > genetics & nucleic acid processing > protein structure, function, modification > protein types > enzymes > histone deacetylase
organism description > yeast
CSHL Authors:
Communities: CSHL labs > Grewal lab
CSHL labs > Hannon lab
School of Biological Sciences > Publications
Depositing User: Matt Covey
Date: April 2002
Date Deposited: 09 Jan 2014 15:42
Last Modified: 19 Sep 2014 13:54
PMCID: PMC133699
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