Literature DB >> 12887899

Silencing in yeast rDNA chromatin: reciprocal relationship in gene expression between RNA polymerase I and II.

Francesco Cioci1, Loan Vu, Kristilyn Eliason, Melanie Oakes, Imran N Siddiqi, Masayasu Nomura.   

Abstract

About half of approximately 150 rRNA genes are transcriptionally active in Saccharomyces cerevisiae. Chromatin structures in the inactive, and not the active, copies were previously thought to silence both rRNA genes and reporter Pol II genes. Contrary to this belief, we found that silencing of reporters is much stronger in a mutant with approximately 25 rDNA copies, all of which are transcriptionally active. By integrating reporter gene mURA3 with an inactive rDNA copy missing the Pol I promoter, we found that mURA3 is not silenced in chromosomal rDNA repeats. Together with the demonstration of a requirement for active Pol I in silencing, these results show a reciprocal relationship in gene expression between Pol I and Pol II in rDNA.

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Year:  2003        PMID: 12887899     DOI: 10.1016/s1097-2765(03)00262-4

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  49 in total

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5.  Nutrient starvation promotes condensin loading to maintain rDNA stability.

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8.  Limiting the extent of the RDN1 heterochromatin domain by a silencing barrier and Sir2 protein levels in Saccharomyces cerevisiae.

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9.  Tor pathway regulates Rrn3p-dependent recruitment of yeast RNA polymerase I to the promoter but does not participate in alteration of the number of active genes.

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10.  Actively transcribed rRNA genes in S. cerevisiae are organized in a specialized chromatin associated with the high-mobility group protein Hmo1 and are largely devoid of histone molecules.

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