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Literature DB >> 12456003

Functional diversity of silencers in budding yeasts.

Jimmy O O Sjöstrand¹, Andreas Kegel, Stefan U Aström.

Abstract

We studied the silencing of the cryptic mating-type loci HMLa and HMRa in the budding yeast Kluyveromyces lactis. A 102-bp minimal silencer fragment was defined that was both necessary and sufficient for silencing of HMLalpha. Mutagenesis of the silencer revealed three distinct regions (A, B, and C) that were important for silencing. Recombinant K. lactis ribosomal DNA enhancer binding protein 1 (Reb1p) could bind the silencer in vitro, and point mutations in the B box abolished both Reb1p binding and silencer function. Furthermore, strains carrying temperature-sensitive alleles of the REBI gene derepressed the transcription of the HMLalpha1 gene at the nonpermissive temperature. A functional silencer element from the K. lactis cryptic HMRa locus was also identified, which contained both Reb1p binding sites and A boxes, strongly suggesting a general role for these sequences in K lactis silencing. Our data indicate that different proteins bind to Kluyveromyces silencers than to Saccharomyces silencers. We suggest that the evolution of silencers is rapid in budding yeasts and discuss the similarities and differences between silencers in Saccharomyces and Kluyveromyces.

Entities: Disease Species

Mesh：

Substances：

Year: 2002 PMID： 12456003 PMCID： PMC118007 DOI： 10.1128/EC.1.4.548-557.2002

Source DB: PubMed Journal: Eukaryot Cell ISSN： 1535-9786

65 in total

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9. Active genes in budding yeast display enhanced in vivo accessibility to foreign DNA methylases: a novel in vivo probe for chromatin structure of yeast.

Authors: J Singh; A J Klar
Journal: Genes Dev Date: 1992-02 Impact factor: 11.361

10. The Sir2-Sum1 complex represses transcription using both promoter-specific and long-range mechanisms to regulate cell identity and sexual cycle in the yeast Kluyveromyces lactis.

Authors: Meleah A Hickman; Laura N Rusche
Journal: PLoS Genet Date: 2009-11-06 Impact factor: 5.917

Functional diversity of silencers in budding yeasts.

1. Involvement of the silencer and UAS binding protein RAP1 in regulation of telomere length.

Review 2. Position-effect variegation--an assay for nonhistone chromosomal proteins and chromatin assembly and modifying factors.

3. The yeast UME6 gene product is required for transcriptional repression mediated by the CAR1 URS1 repressor binding site.

4. ATP-dependent recognition of eukaryotic origins of DNA replication by a multiprotein complex.

5. An origin of DNA replication and a transcription silencer require a common element.

6. Evolutionary relationships among pathogenic Candida species and relatives.

7. An unusual form of transcriptional silencing in yeast ribosomal DNA.

8. SIR2 and SIR4 interactions differ in core and extended telomeric heterochromatin in yeast.

9. Active genes in budding yeast display enhanced in vivo accessibility to foreign DNA methylases: a novel in vivo probe for chromatin structure of yeast.

10. Modifiers of position effect are shared between telomeric and silent mating-type loci in S. cerevisiae.

1. Transcriptional silencing functions of the yeast protein Orc1/Sir3 subfunctionalized after gene duplication.

2. Alpha3, a transposable element that promotes host sexual reproduction.

3. Ume6 is required for the MATa/MATalpha cellular identity and transcriptional silencing in Kluyveromyces lactis.

Review 4. Reinventing heterochromatin in budding yeasts: Sir2 and the origin recognition complex take center stage.

Review 5. Mating-type genes and MAT switching in Saccharomyces cerevisiae.

6. Tight protein-DNA interactions favor gene silencing.

7. The essential transcription factor Reb1p interacts with the CLB2 UAS outside of the G2/M control region.

8. Evolution of the MAT locus and its Ho endonuclease in yeast species.

9. Evolution and Functional Trajectory of Sir1 in Gene Silencing.

10. The Sir2-Sum1 complex represses transcription using both promoter-specific and long-range mechanisms to regulate cell identity and sexual cycle in the yeast Kluyveromyces lactis.