Transcriptional repression of the yeast CHA1 gene requires the chromatin-remodeling complex RSC - PubMed (original) (raw)

Transcriptional repression of the yeast CHA1 gene requires the chromatin-remodeling complex RSC

J M Moreira et al. EMBO J. 1999.

Abstract

In eukaryotes, DNA is packaged into chromatin, a compact structure that must be disrupted when genes are transcribed by RNA polymerase II. For transcription to take place, chromatin is remodeled via nucleosome disruption or displacement, a fundamental transcriptional regulatory mechanism in eukaryotic organisms. Here we show that the yeast chromatin-remodeling complex, RSC (remodels the structure of chromatin), isolated on the basis of homology to the SWI/SNF complex, is required for proper transcriptional regulation and nucleosome positioning in the highly inducible CHA1 promoter. In the absence of Sth1p/Nps1p (a homolog of Swi2p/Snf2p) or of Swh3p (a homolog of Swi3p), expression of CHA1 in non-induced cells is increased to a level comparable with that of fully induced cells. Furthermore, in non-induced cells depleted for Sth1p/Nps1p or Swh3p, a nucleosome positioned over the TATA box of the CHA1 promoter is disrupted, an architectural change normally only observed during transcriptional induction. In addition, deletion of the gene-specific activator Cha4p did not affect derepression of CHA1 in cells depleted for Swh3p. Thus, CHA1 constitutes a target for the RSC complex, and we propose that RSC is essential for maintaining a repressive chromatin structure at the CHA1 promoter.

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References

1. 1. J Gen Microbiol. 1982 Jan;128(1):61-71 - PubMed
2. 1. Mol Cell Biol. 1992 Apr;12(4):1893-902 - PubMed
3. 1. Nucleic Acids Res. 1998 Aug 15;26(16):3739-45 - PubMed
4. 1. Proc Natl Acad Sci U S A. 1998 Apr 14;95(8):4772-7 - PubMed
5. 1. Proc Natl Acad Sci U S A. 1994 Apr 12;91(8):2905-8 - PubMed

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