EC:3.1.31.1 - FACTA Search

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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)

Metaphase chromosomes prepared from colcemid-treated mouse L929 cells by non-ionic detergent lysis exhibit distinct heterochromatic centromere regions and associated kinetochores when viewed by whole mount electron microscopy. Deoxyribonuclease I treatment of these chromosomes results in the preferential digestion of the chromosomal arms leaving the centromeric heterochromatin and kinetochores apparently intact. Enrichment in centromere material after DNase I digestion was quantitated by examining the increase in 10,000 X g pellets of the 1.691 g/cc satellite DNA relative to main band DNA. This satellite species has been localized at the centromeres of mouse chromosomes by in situ hybridization. From our analysis it was determined that DNase I digestion results in a five to six-fold increase in centromeric material. In contrast to the effect of DNase I, micrococcal nuclease was found to be less selective in its action. Digestion with this enzyme solubilized both chromosome arms and centromeres leaving only a small amount of chromatin and intact kinetochores.
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PMID:Selective digestion of mouse metaphase chromosomes. 64 80

The chromatin structures of the telomeric and subtelomeric regions on chromosomal DNA molecules in Saccharomyces cerevisiae were analyzed using micrococcal nuclease and DNAse I. The subtelomeric repeats X and Y' were assembled in nucleosomes. However, the terminal tracts of C1-3A repeats were protein protected in a particle larger than a nucleosome herein called a telosome. The proximal boundary of the telosome was a DNase I hypersensitive site. This boundary between the telosome and adjacent nucleosomes was completely accessible to Escherichia coli dam methylase when this enzyme was expressed in yeast, whereas a site 250 bp internal to the telomeric repeats was relatively inaccessible. Telosomes could be cleaved from chromosome ends with nuclease and solubilized as protein-DNA complexes. Immunoprecipitation of chromosomal telosomes with antiserum to the RAP1 protein indicated that RAP1 was one component of isolated telosomes. Thus, the termini of chromosomal DNA molecules in yeast are assembled in a non-nucleosomal structure encompassing the entire terminal C1-3A tract. This structure is separated from adjacent nucleosomes by a region of DNA that is highly accessible to enzymes.
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PMID:Saccharomyces telomeres assume a non-nucleosomal chromatin structure. 173 16

The nucleoprotein structure of telomeres from Euplotes crassus was studied by using nuclease and chemical footprinting. The macronuclear telomeres were found to exist as DNA-protein complexes that are resistant to micrococcal nuclease digestion. Each complex encompassed 85 to 130 base pairs of macronuclear DNA and appeared to consist of two structural domains that are characterized by dissimilar DNA-protein interactions. Dimethyl sulfate footprinting demonstrated that very sequence-specific and salt-stable interactions occur in the most terminal region of each complex. DNase I footprinting indicated that DNA in the region 30 to 120 base-pairs from the 5' end lies on a protein surface; the interactions in this region of the complex are unlikely to be sequence specific. A 50-kilodalton telomere-binding protein was isolated. Binding of this protein protected telomeric DNA from BAL 31 digestion and gave rise to many of the sequence-specific DNA-protein interactions that were observed in vivo. The telomeric complexes from E. crassus were very similar in overall structure to the complexes found at Oxytricha telomeres. However, telomeric complexes from the two ciliates showed significant differences in internal organization. The telomeric DNA, the telomere-binding proteins, and the resultant DNA-protein interactions were all somewhat different. The telomere-binding proteins from the two ciliates were found to be less closely conserved than might have been expected. It appears that the proteins are tailored to match their cognate telomeric DNA.
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PMID:Telomere structure in Euplotes crassus: characterization of DNA-protein interactions and isolation of a telomere-binding protein. 235 12

Restriction fragments that include the telomeres of ribosomal DNA from Tetrahymena thermophila (TtrDNA) were ligated to the ends of linearized simian virus 40 (SV40) DNA. The linear SV40 DNA with TtrDNA ends, circular SV40 DNA, linear SV40 DNA, and intact TtrDNA were injected into the nuclei of Xenopus laevis oocytes and assayed for stability. The intact linear 21-kb TtrDNA and circular SV40 DNA were maintained stably for at least 72 h after injection while the linearized SV40 DNA, either with or without telomeric ends, was degraded rapidly. Limited digestion with micrococcal nuclease revealed that neither the intact TtrDNA nor the SV40 DNA with telomeric ends reconstituted into chromatin containing regularly spaced nucleosomes. Another linearized plasmid DNA (pBamC), 14 kb in length, also was not stable in Xenopus oocytes with or without the addition of TtrDNA telomeres. Therefore, TtrDNA telomeres by themselves are not sufficient for stabilization of linear DNA in Xenopus oocytes. Rather, linear TtrDNA is maintained stably because of additional sequence or structural information encoded within the molecule.
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PMID:The telomeres of Tetrahymena ribosomal DNA are not sufficient for stabilizing linear DNA in Xenopus oocytes. 282 94

The chromatin structure of the 3'-nontranscribed spacer of the linear rRNA gene molecules of Tetrahymena thermophila was examined. This region includes the transcription termination site, two sets of recently identified conserved spacer repeats (Type IV and V repeats (Challoner, P. B., Amin, A. A., Pearlman, R. E., and Blackburn, E. H. (1985) Nucleic Acids Res. 13, 2661-2680], and the terminus of the molecule. Using sensitivity to nucleases as a probe, a unique chromatin structure was found in this rDNA region. Proceeding from the end of the rDNA molecule, the telomeric repeated sequence, (CCCCAA)n, was packaged in a non-nucleosomal complex adjacent to three phased nucleosomes. This nucleosomal structure was disrupted at the Type V repeat region, which, compared with the neighboring nucleosomal region, was more accessible to nucleases and, from both micrococcal nuclease and DNase I digestion results, was packaged in chromatin differently from the sequences flanking it on both sides. The region between the Type V repeats and adjacent to the transcription termination site was in yet another distinguishable chromatin structure as judged by its sensitivity to nucleases. It includes sites protected in chromatin and sites which were cleaved in chromatin but not detectably digested in DNA controls, suggesting that specific proteins are also associated with this region.
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PMID:Chromatin structure of the telomeric region and 3'-nontranscribed spacer of Tetrahymena ribosomal RNA genes. 300 Oct 53

Evidence is presented that endonuclease digestion of isolated, unfixed chromosomes results in the production of banding patterns similar to those produced by digestion of fixed, air-dried chromosomes. Mouse L cell chromosomes were isolated under acidic or relatively neutral pH conditions, exposed in situ (as wet mounts on glass slides) or in vitro (in suspension) to micrococcal nuclease, Alu I or Eco RI, treated with a buffered salt solution, and stained with Giemsa. After any of these endonuclease treatments in situ, the centromeric regions of the chromosomes were intensely stained, characteristic of the C-banding observed in fixed chromosomes exposed to the same treatments. Although the fixed chromosomes were morphologically well-preserved after endonuclease digestion, the morphology of chromosomes digested in situ was variable, ranging from normal to swollen to highly distorted chromosomes. In the latter, the endonucleases induced dispersion of non-C-band chromatin; however, C-bands were still apparent as condensed, differentially-stained regions. Exposure of isolated chromosomes to Alu I in vitro also resulted in well-defined C-banding and led to the extraction of about 70% of the chromosomal DNA. From these results, the mechanism of endonuclease-induced C-banding appears to involve the dispersion and extraction of digested chromatin.
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PMID:Endonuclease banding of isolated mammalian metaphase chromosomes. 301 70

We have partially isolated the kinetochore and associated centromeric structures from mammalian metaphase chromosomes. Human autoantibodies from scleroderma CREST (calcinosis, Raynaud's phenomenon, esophageal dysmotility, sclerodactyly, telangiectasia) patients were used as immunofluorescent probes to monitor fractionation. The procedure includes digestion of total chromosomal DNA with micrococcal nuclease, dehistonization with heparin, and dissociation of the remaining material with detergent and urea. We used a density gradient (metrizamide) to obtain an enriched fraction of stained material (kinetochore). When examined by electron microscopy, the kinetochore fraction is seen to contain numerous small immunoperoxidase-positive masses which are morphologically similar to the centromere/kinetochore region of intact metaphase chromosomes. The particulate fraction that contains kinetochore components represents less than 5% of total chromosomal proteins and contains less than 1% of total DNA. Two polypeptides of 18 and 80 kD were identified as kinetochore antigens by immunoblotting with CREST antiserum. In this paper we discuss the distribution of these kinetochore polypeptides with the associated centromeric chromatin.
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PMID:Fractionation and initial characterization of the kinetochore from mammalian metaphase chromosomes. 389 44

We have examined the chromatin structure of the centromere regions of chromosomes III and XI in yeast by using cloned functional centromere DNAs (CEN3 and CEN11) as labeled probes. When chromatin from isolated nuclei is digested with micrococcal nuclease and the resulting DNA fragments separated electrophoretically and blotted to nitrocellulose filters, the centromeric nucleosomal subunits are resolved into significantly more distinct ladders than are those from the bulk of the chromatin. A discrete protected region of 220-250 bp of CEN sequence flanked by highly nuclease-sensitive sites was revealed by mapping the exact nuclease cleavage sites within the centromeric chromatin. On both sides of this protected region, highly phased and specific nuclease cutting sites exist at nucleosomal intervals (160 bp) for a total length of 12-15 nucleosomal subunits. The central protected region in the chromatin of both centromeres spans the 130 bp segment that exhibits the highest degree of sequence homology (71%) between functional CEN3 and CEN11 DNAs. This unique chromatin structure is maintained on CEN sequences introduced into yeast on autonomously replicating plasmids, but is not propagated through foreign DNA sequences flanking the inserted yeast DNA.
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PMID:Yeast centromere DNA is in a unique and highly ordered structure in chromosomes and small circular minichromosomes. 628 53

Antibodies directed against centromeric chromatin characteristically occur in the sera of patients with the CREST variant of scleroderma. We have studied the in situ enzymatic sensitivity and solubility of the centromeric antigen and have isolated an antigenic moiety that reacts with anticentromere antibodies. The centromeric antigen in the human epithelial cell line, HEp-2, was sensitive to DNAase I and micrococcal nuclease but not affected by RNAase A, trypsin or amylase. It was insoluble in 0.15-4 M NaCl but was extracted from the HEp-2 cells by 4 M urea/2 M NaCl. Antigenic activity in a 4 M urea/2 M NaCl extract of rabbit thymus was demonstrated by immunoabsorption. Indirect immunofluorescence of the extract separated by polyacrylamide gel electrophoresis revealed a fluorescent band with a mol. wt of 33,000. Calf thymus and trout testis histone preparations were fractionated by gel electrophoresis and transferred by blotting techniques to diazobenzyloxymethyl cellulose paper for autoradiography. Anticentromere antibodies bound to and were absorbed by trout testis histone 1. We propose that the centromeric antigen may be a variant of histone 1 that is associated with condensed chromatin.
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PMID:Anticentromere antibodies bind to trout testis histone 1 and a low molecular weight protein from rabbit thymus. 638 63

Macronuclear telomeres in Oxytricha exist as DNA-protein complexes in which the termini of the G-rich strands are bound by a 97-kDa telomere protein. During telomeric DNA replication, the replication machinery must have access to the G-rich strand. However, given the stability of telomere protein binding, it has been unclear how this is accomplished. In this study we investigated the ability of several different DNA polymerases to access telomeric DNA in Oxytricha telomere protein-DNA complexes. Although DNA bound by the telomere protein is not degraded by micrococcal nuclease or labeled by terminal deoxynucleotidyltransferase, this DNA serves as an efficient primer for the addition of telomeric repeats by telomerase, a specialized RNA-dependent DNA polymerase (ribonucleoprotein reverse transcriptase), EC 2.7.7.49. Moreover, in the presence of a suitable complementary C-rich DNA template, AMV reverse transcriptase and the E. coli Klenow fragment will also elongate DNA bound by the telomere protein. These findings indicate that the 3' terminus and the Watson-Crick base pairing positions are exposed in the protein complex. We propose that the telomere protein can serve a dual role at the telomere by protecting the DNA phosphate backbone from degradation while simultaneously exposing the DNA bases for replication.
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PMID:DNA bound by the Oxytricha telomere protein is accessible to telomerase and other DNA polymerases. 750 21

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