Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The two yeast mating-type alleles MATa and MAT alpha each produce two mRNAs that are transcribed in opposite and diverging directions from central promoters. Silent copies of MATa (HMRa) and MAT alpha (HML alpha) contain identical DNA sequences throughout the transcribed region, yet are not transcribed, except in sir- strains. Since SIR represses not only transcription from a silent copy but also its ability to act as a recipient in a mating-type interconversion, we have investigated whether it might act by regulating the entire chromatin structure of a silent locus. We have therefore compared the profile of DNAase I and micrococcal nuclease cleavage at HML alpha with MAT alpha and HMRa with MATa in sir- and SIR+ strains. We find that SIR is necessary for the maintenance of a different chromatin structure at HM loci from their active counterparts at MAT. One particularly striking change that SIR induces provides a simple explanation for one of its biological properties: control of directionality of switching. SIR causes the disappearance of a DNAase I-hypersensitive site at Y-Z boundary (found at MAT or HM sir-) that is coincident with a double-strand cleavage possibly created by HO in the initiation of a mating-type switch.
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PMID:The regulation of yeast mating-type chromatin structure by SIR: an action at a distance affecting both transcription and transposition. 621 85

Dimethyl sulfate, DNase I and micrococcal nuclease DNA cleavage were combined with the ligation-mediated polymerase chain reaction to obtain high resolution maps of the promoter regions for two cell-type-specific genes: the a-specific STE2 gene and the alpha-specific STE3 gene. We find that MCM1 binds in vivo in a-cells to a 16 bp P-box sequence located in the STE2 UAS. In alpha-cells, the footprint pattern is extended relative to a-cells, consistent with the additional binding of MAT alpha 2 to the sequences flanking each end of the P-box. A nucleosome was found adjacent to the P-box of the transcriptionally repressed a-specific STE2 UAS in alpha-cells, positioned so that the nucleosome overlaps the TATA-box. In contrast, such well-positioned nucleosomes were not found for the transcriptionally active STE2 UAS in a-cells, where instead the TATA box appears to be bound to the general transcription factor TFIID. These observations support the hypothesis that MAT alpha 2 repression of a-specific genes is mediated by nucleosomes, perhaps by exclusion of TFIID from the TATA-box.
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PMID:Genomic footprinting of the promoter regions of STE2 and STE3 genes in the yeast Saccharomyces cerevisiae. 826 44

The yeast SIR2 gene maintains inactive chromatin domains required for transcriptional repression at the silent mating-type loci and telomeres. We previously demonstrated that SIR2 also acts to repress mitotic and meiotic recombination between the tandem ribosomal RNA gene array (rDNA). Here we address whether rDNA chromatin structure is altered by loss of SIR2 function by in vitro and in vivo assays of sensitivity to micrococcal nuclease and dam methyltransferase, respectively, and present the first chromatin study that maps sites of SIR2 action within the rDNA locus. Control studies at the MAT alpha locus also revealed a previously undetected MNase-sensitive site at the a1-alpha 2 divergent promoter which is protected in sir2 mutant cells by the derepressed a1-alpha 2 regulator. In rDNA, SIR2 is required for a more closed chromatin structure in two regions: SRR1, the major SIR-Responsive Region in the non-transcribed spacer, and SRR2, in the 18S rRNA coding region. None of the changes in rDNA detected in sir2 mutants are due to the presence of the a1-alpha 2 repressor. Reduced recombination in the rDNA correlates with a small, reproducible transcriptional silencing position effect. Deletion and overexpression studies demonstrate that SIR2, but not SIR1, SIR3 or SIR4, is required for this rDNA position effect. Significantly, rDNA transcriptional silencing and rDNA chromatin accessibility respond to SIR2 dosage, indicating that SIR2 is a limiting component required for chromatin modeling in rDNA.
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PMID:Direct evidence for SIR2 modulation of chromatin structure in yeast rDNA. 935 31