Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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.
...
PMID:The regulation of yeast mating-type chromatin structure by SIR: an action at a distance affecting both transcription and transposition. 621 85
Eukaryotic gene expression occurs in the context of structurally distinct chromosomal domains such as the relatively open, gene-rich, and transcriptionally active euchromatin and the condensed and gene-poor heterochromatin where its specific chromatin environment inhibits transcription. To study gene silencing by heterochromatin, we created a minichromosome reporter system where the gene silencer elements were used to repress the URA3 reporter gene. The minichromosome reporters were propagated in yeast Saccharomyces cerevisiae at a stable copy number. Conduction of gene silencing through nucleosome arrays was studied by placing various repeats of clone-601 DNA with high affinity for histones between the silencer and reporter in the yeast minichromosomes. High-resolution chromatin mapping with
micrococcal nuclease
showed that the clone-601 nucleosome positioning downstream of the
HML
-E gene silencing element was not significantly altered by chromatin silencing. Using URA3 reporter assays, we observed that gene silencing was conducted through arrays of up to eight nucleosomes. We showed that the shorter nucleosome repeat lengths, typical of yeast (167 and 172 bp), were more efficient in conducting silencing in vivo compared to the longer repeats (207 bp) typical of higher eukaryotes. Both the longer and the shorter repeat lengths were able to conduct silencing in minichromosomes independently of clone-601 nucleosome positioning orientations vs. the silencer element. We suggest that the shorter nucleosome linkers are more suitable for conducting gene silencing than the long repeats in yeast due to their higher propensity to support native-like chromatin higher-order folding.
...
PMID:Nucleosome-positioning sequence repeats impact chromatin silencing in yeast minichromosomes. 2518 73
