EC:3.1.31.1 - FACTA Search

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)

Chromatin core particles, containing 140 base pairs (bp) of DNA plus the inner histones, can be nearly quantitatively formed either by reassociation from 2 M NaCl or by reconstitution from salt extracted histones and DNA. The reassociated or reconstituted particles appear to be identical with the native particles in all physical properties examined (sedimentation velocity, histone content, circular dichroism, and melting) as well as in their patterns of digestion by micrococcal nuclease, DNase I, and trypsin. In the presence of excess DNA, no "half-particles" are formed. In the presence of excess histone, aggregated structures are formed in addition to 11S core particles.
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PMID:Reconstitution of chromatin core particles. 92 32

50 to 55% of tobacco and barley nuclear DNA is accessible to micrococcal endonuclease digestion. The DNA fragments resulting from a mild endonuclease treatment are multiples of a basic unit of 194 +/- 6 base pairs in tobacco and 195 +/- 6 base pairs in barley. After extensive digestion, a DNA fragment of approximately 140 base pairs is predominant. Hence the "extra-core" or "linker"-DNA is 55 base pairs long. Other fragments having 158 and less than 140 base pairs are present as well. Treatment with DNase I results in multiples of 10 bases when analysed under denaturating conditions. These results show that the general organization of the DNA within the nucleosomes is about the same in higher plants as in other higher eukaryotes.
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PMID:DNA associated with nucleosomes in plants. 92 70

We describe a method of isolating a homogeneous population of "trimmed" monomeric nucleosomes from Hela cells. These nucleoprotein particles contain a 140 +/- 5 base pair length of DNA and have a histone/DNA ratio of 1.2. They lack H1 and contain equal amounts of the four smaller histones. The DNA contains no single strand nicks. The particles sediment with an S20,w of 11S in D2O density gradients. After formaldehyde fixation, they band at a density of 1.4370 in neutral CsCl. Digestion of nucleosomes with either micrococcal nuclease or DNase I generates the same pattern of DNA fragments observed when intact nuclei are digested. Circular dichroism spectra indicate that the 280 nm positive ellipticity maximum of nucleosomes is about one-half that of chromatin. In the presence of 6 M urea, nucleosomes sediment with an S20,w of 6S, have a multiphasic thermal denaturation profile, and exhibit a circular dichroic spectrum nearly identical to that of B-form DNA. Our yield of purified nucleosomes (10-15% of the input DNA) is similar to the yields of other methods; our nucleosome population is substantially more homogeneous than those previously reported.
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PMID:Preparation and physical characterization of a homogeneous population of monomeric nucleosomes from HeLa cells. 96 93

Analysis of the DNA of isolated nucleosomes suggests that virtually all genomic DNA sequences are organized in this basic chromatin subunit. In this report, we demonstrate that although histones reside on the transcriptionally active ovalbumin genes in the oviduct, the organization of proteins about this gene renders it highly sensitive to deoxyribonuclease I (deoxyribonucleate 5'-oligonucleotidohydrolase, EC 3.1.4.5). Treatment of oviduct nuclei from the laying hen with pancreatic deoxyribonuclease I results in the preferential digestion of over 70% of the ovalbumin sequences when only 10% of the total nuclear DNA has been solubilized. Treatment of liver nuclei does not reveal selective sensitivity of these genes to DNase I. Furthermore, regions of DNA not actively transcribed, such as the endogenous leukosis virus genes in the oviduct, are not selectively degraded by this enzyme. Similar digestions with micrococcal nuclease, however, reveal no specific digestion of transcriptionally active chromatin. These data confirm the observations of H. Weintraub and M. Groudine [(1976) Science 193, 848-856] and suggest we are dealing with an aspect of structure that may be necessary to permit transcription of the chromatin complex.
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PMID:Selective digestion of transcriptionally active ovalbumin genes from oviduct nuclei. 106 79

The self complementary DNA dodecamers d(CGCGAATTCGCG), d(CGCGTTAACGCG), d(CGCGTATACGCG), d(CGCGATATCGCG), d(CGCAAATTTGCG), d(CGCTTTAAAGCG), d(CGCGGATCCGCG) and d(CGCGGTACCGCG) have been cloned into the Smal site of plasmid pUC19. Radiolabelled polylinker fragments containing these inserts have been digested with nucleases and chemical agents, probing the structure of the central AT base pairs. The sequences AATT and AAATTT are relatively resistant to digestion by DNase I, micrococcal nuclease and hydroxyl radicals, consistent with the suggestion that they possess a narrow minor groove. Nuclease digestion of TTAA is much more even, and comparable to that at mixed sequence DNA. TpA steps in ATAT, TATA and GTAC are cut less well by DNAse I than in TTAA. DNasel cleavage of surrounding bases, especially CpG is strongly influenced by the nature of the central sequence.
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PMID:Probing the conformations of eight cloned DNA dodecamers; CGCGAATTCGCG, CGCGTTAACGCG, CGCGTATACGCG, CGCGATATCGCG, CGCAAATTTGCG, CGCTTTAAAGCG, CGCGGATCCGCG and CGCGGTACCGCG. 133 76

We performed a high resolution analysis of the chromatin structure within the regions required for distal transcription of the Drosophila melanogaster alcohol dehydrogenase gene (Adh). Using dimethyl sulfate, DNase I, and micrococcal nuclease as structural probes, and comparing chromatin structure in tissues isolated from several developmental stages, we have identified several sites of stage- and tissue-specific DNA-protein interactions that correlate with distal transcription initiation. Most were within previously identified cis-acting elements and/or in vitro protein binding sites of the adult enhancer (AAE) and distal promoter, including the TATA box. We also detected a novel stage-specific DNA-protein interaction at the Adf-2a binding site where a non-histone protein was bound to the DNA on the surface of a positioned nucleosome previously identified between the distal promoter and adult enhancer. In addition to footprints, we have also revealed stage- and tissue-specific DNA helix deformations between many of the non-histone protein binding sites. These helix distortions suggest there are interactions among the adjacently bound proteins that result in bending or kinking of the intervening DNA. The distal promoter and AAE have an accessible chromatin conformation in fat body prior to the third larval instar and many of the regulatory proteins that bind in these regions are also available before distal transcription begins. Nevertheless, the timing of DNA-protein interactions in the distal promoter and AAE suggest these proteins do not bind individually or assemble progressively as they and their binding sites become available. Instead, there appears to be a coordinated assembly of a large cooperative complex of proteins interacting with the distal promoter, the positioned nucleosome, the enhancer of the distal promoter (the AAE), and each other.
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PMID:In vivo stage- and tissue-specific DNA-protein interactions at the D. melanogaster alcohol dehydrogenase distal promoter and adult enhancer. 143 59

The positions of several DNase I-hypersensitive (DH) sites have been mapped in the second and third introns of the human apolipoprotein B gene. Two such DH sites, I and V, are present both in human hepatoma (HepG2) and colon carcinoma (CaCo-2) cells that express the gene but absent from HeLa cells that do not express the gene. These DH sites map near sequence elements that have been highly conserved between the human and mouse genes. A PvuII-EcoRI fragment (+1064 to +2977) from the hypersensitive region exhibited enhancer activity, which was further localized by means of deletion experiments to a 155-base pair segment located entirely within the third intron and flanked by two DH sites. Three DNase I footprints were observed within this core enhancer, one of which contains putative binding sites for three liver specific nuclear proteins. Experiments are presented that suggest that this enhancer operates by a similar mechanism as that described previously for the strong second intron enhancer, involving an interaction with the basal transcriptional machinery. Digestions with low levels of micrococcal nuclease were performed to ascertain whether nucleosomes were present in the DNase I sensitive enhancer region. Nine different micrococcal nuclease-hypersensitive (MH) sites were detected in HepG2 cells but not in HeLa cells; one MH site was common to both cell types, and HeLa cells exhibited three unique MH sites. The first six MH sites (I-VI) are spaced approximately 200 base pairs apart, suggesting the presence of positioned nucleosomes in that region. MH sites VI-X are more closely spaced, suggesting either additional cutting sites within the core particle or the absence of one or two nucleosomes in this segment of the third intron enhancer.
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PMID:Nuclease-hypersensitive sites define a region with enhancer activity in the third intron of the human apolipoprotein B gene. 152 4

The mouse mammary tumor virus (MMTV) promoter is positively regulated by glucocorticoid hormone via binding of glucocorticoid receptor to a specific response element. Upon addition of hormone, a nucleosome containing the glucocorticoid response element is removed or structurally altered, suggesting that the nucleosome interferes with transcription. Accordingly, inhibition of chromatin assembly should relieve the repression and result in an increased constitutive activity. We have tested this hypothesis by injecting nonspecific competitor DNA into Xenopus laevis oocytes to titrate endogenous histones. The coinjection of competitor DNA altered chromatin structure: nucleosomal ladders produced by micrococcal nuclease were disrupted, and the unique helical setting of the MMTV promoter in a nucleosome was lost, as shown by in situ DNase I footprinting. Basal MMTV transcription was drastically increased by competitor DNA, whereas a coinjected, constitutively active adenovirus 2 major late promoter was not stimulated. These results show that the uninduced MMTV promoter is under negative control and provide direct support for the theory that the nucleosomal organization maintains the repression of this promoter in its uninduced state.
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PMID:Inhibition of chromatin assembly in Xenopus oocytes correlates with derepression of the mouse mammary tumor virus promoter. 165 27

The effect of actinomycin on the structure of DNA fragments containing the sequences (AT)5GC(AT)5, (TA)5GC(TA)5, A9GCT9, and T9GCA9, cloned into the SmaI site of pUC19, has been studied by footprinting analysis using a variety of probes known to be sensitive to DNA structure. In each case clear footprints are found around the central GC sites. DNase I cleavage of fragments containing alternating AT shows much greater cutting at ApT than TpA; in the presence of actinomycin, although this preference is retained, there is a large increase in the cutting efficiency at the closest TpA steps. DNase I cleavage in homopolymeric regions of A and T, which is normally very poor, is greatly enhanced by drug binding. With T9GCA9 the enhancements are propagated in both directions, whereas changes are only found to the 5'-side of the GC site in A9GCT9. The results are confirmed by similar experiments with micrococcal nuclease and DNase II. Small increases in sensitivity to diethylpyrocarbonate are found at adenines proximal to GC. Experiments performed at 4 degrees C suggest that conformational changes are a necessary consequence of drug binding.
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PMID:The effects of actinomycin on the structure of dAn.dTn and (dA-dT)n regions surrounding its GC binding site. A footprinting study. 170 17

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

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