EC:3.1.31.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.31.1 (micrococcal nuclease)
2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After removal of histone H1 about 40% of DNA in chromatin acquires the sensitivity of naked DNA to DNAse I. Digestion of H1-depleted chromatin with DNAse I leads to a qualitative change in the digestion pattern, generating DNA fragments of approx. 200 b.p. and multiples, similar to those obtained with micrococcal nuclease. Both effects are reversed upon reconstitution of purified H1 to H1-depleted chromatin.
...
PMID:Removal of histone H1 exposes linker DNA in chromatin to DNAse I. 623 59

We have measured changes in histone H1 content and changes in chromatin structure of Chinese hamster (line CHO) cells blocked in early S phase by sequential use of isoleucine deprivation and blockade with 5-fluorodeoxyuridine or aphidicolin. Both the H1:core histone ratio in isolated nuclei and the H1 content of the cell are reduced 20-60%, depending on the duration of the block. The new deoxyribonucleic acid (DNA) synthesized during S-phase block has a shorter nucleosome repeat length than that of bulk chromatin, but it is nearly equally resistant as bulk DNA to attack by micrococcal nuclease. During the time that H1 content is decreasing, bulk chromatin also undergoes structural changes so that its nucleosome cores appear to be more closely packed along the DNA chain. The losses in H1 content and changes in chromatin structure are similar to those reported for cells blocked in early S phase by hydroxyurea [D'Anna, J. A., & Prentice, D. A. (1983) Biochemistry 22, 5631-5640]. The results suggest that losses of H1 and changes in chromatin structure are general events which occur when the elongation of initiated replicons or the joining of intermediate-sized DNA fragments is retarded during replication. They are consistent with the notions that H1 is lost from initiated replicons and/or the loss of H1 is part of an alarm response in the cell which might facilitate events leading to gene amplification.
...
PMID:Changes in histone H1 content and chromatin structure of cells blocked in early S phase by 5-fluorodeoxyuridine and aphidicolin. 623 26

The ovalbumin gene in chick oviduct nuclei or nucleosomes is digested preferentially by either DNase I or staphylococcal nuclease. Staphylococcal nuclease preferentially cuts between and within core particles of the oviduct ovalbumin gene; thus, the ovalbumin gene is more quickly degraded to mononucleosomes and the DNA within these monomers is digested to a nonhybridizable size significantly faster than the chicken globin gene. Mono- and oligonucleosomes generated by partial staphylococcal nuclease digestion at 0 degrees C, but not at 37 degrees C, retain equal sensitivity to DNase I. Most of this sensitivity persists when histone H1 and most of the non-histone chromosomal proteins are removed with 0.6 M NaCl. On the basis of these observations, we propose that nuclease sensitivity of the oviduct ovalbumin gene is due to covalent modifications of the core histones and that this sensitivity is amplified by interaction of other chromosomal proteins with these modified histones.
...
PMID:Multiple structural features are responsible for the nuclease sensitivity of the active ovalbumin gene. 625 89

The T-antigen of SV40 virus can be found in purified chromatin prepared from virus-induced tumour cells of the Syrian hamster. After treatment of chromatin or isolated nuclei with micrococcal nuclease this protein is detected in the high molecular weight and oligonucleosomal fractions. Data from sedimentation analysis and gel electrophoresis suggest that the T-antigen is predominantly linked with the oligonucleosomal fraction and in a lesser degree with mononucleasomes containing linker DNA and histone H1. A small amount of the T-antigen is found in the mononucleosome complex devoid of histone H1; however, the ratio of the T-antigen to DNA in this case is about 30 times less than that in the oligonucleosomal fraction. In order to investigate the nature of T-antigen binding to nucleosomes, the interaction between the T-antigen and nucleosomes from normal rat liver was studied under restricted binding of the antigen to DNA (pH 8.0). The T-antigen was effectively bound to the nucleosomes and coprecipitated with them in 5 mM MgCl2. It was shown that the T-antigen was adsorbed on columns packed with immobilized histones H1 and nucleosomal histones without H1; the former eluted at 0.15 - 0.25 M NaCl, the latter - at 0.35 - 0.5 M NaCl. The possibility of T-antigen interaction with cellular DNA and protein components of chromatin (primarily to H1) is discussed.
...
PMID:[Interaction of SV40 T-antigen with tumor cell chromatin]. 627 83

Nucleosomal chains of various repeat unit lengths were generated by a mild micrococcal nuclease digestion of purified pancreatic nuclei. Maximal nucleosome associated poly(ADP-ribose) polymerase activity was recovered in trimeric to tetrameric chromatin fragments, after which the enzyme activity gradually decreased and stabilized towards oligomeric periodicities of 11 to 16 nucleosomes. Electrophoresis of [32P]ADP-ribosylated histones on first-dimension acid-urea or acid-urea-Triton gels and on second-dimension acid--urea--cetyltriammonium bromide gels revealed that, of all histones, only histone H1 could be significantly poly(ADP-ribosyl)ated while only minimal modification could be recovered with histone H1(0). Furthermore, the extent of ADP-ribosylation present on pancreatic histone H1 is shown to proportionally retard this protein's electrophoretic mobility in all gel systems and to consist of a distinct series of at least 12 modification intermediates which can be evidenced, in nuclei or nucleosomes, and fully recovered along with histone H1 upon its selective extraction with 5% perchloric acid. The generation of these increasingly ADP-ribosylated forms of histone H1 is also demonstrated to be time dependent and the more complex ADP-ribosylated forms of this histone are favored at high NAD+ concentrations. Moreover, the electrophoretic mobilities of all intermediates are unaffected by the presence of the nonionic detergent Triton X-100.
...
PMID:Hyper(ADP-ribosyl)ation of histone H1. 629 82

We have studied the structure of tandemly repetitive alpha-satellite chromatin (alpha-chromatin) in African green monkey cells (CV-1 line), using restriction endonucleases and staphylococcal nuclease as probes. While more than 80% of the 172-base-pair (bp) alpha-DNA repeats have a HindIII site, less than 15% of the alpha-DNA repeats have an EcoRI site, and most of the latter alpha-repeats are highly clustered within the CV-1 genome. EcoRI and HindIII solubilize approximately 8% and 2% of the alpha-chromatin, respectively, under the conditions used. EcoRI is thus approximately 30 times more effective than HindIII in solubilizing alpha-chromatin, with relation to the respective cutting frequencies of HindIII and EcoRI on alpha-DNA. EcoRI and HindIII solubilize largely non-overlapping subsets of alpha-chromatin. The DNA size distributions of both EcoRI- and HindIII-solubilized alpha-chromatin particles peak at alpha-monomers. These DNA size distributions are established early in digestion and remain strikingly constant throughout the digestion with either EcoRI or HindIII. Approximately one in every four of both EcoRI- and HindIII-solubilized alpha-chromatin particles is an alpha-monomer. Two-dimensional (deoxyribonucleoprotein leads to DNA) electrophoretic analysis of the EcoRI-solubilized, sucrose gradient-fractionated alpha-oligonucleosomes shows that they do not contain "hidden" EcoRI cuts. Moreover, although the EcoRI-solubilized alpha-oligonucleosomes contain one EcoRI site in every 172-bp alpha-DNA repeat, they are completely resistant to redigestion with EcoRI. This striking difference between the EcoRI-accessible EcoRI sites flanking an EcoRI-solubilized alpha-oligonucleosome and completely EcoRI-resistant internal EcoRI sites in the same alpha-oligonucleosome indicates either that the flanking EcoRI sites occur within a modified chromatin structure or that an altered nucleosome arrangement in the vicinity of a flanking EcoRI site is responsible for its location in the nuclease-sensitive internucleosomal (linker) region. Analogous redigestions of the EcoRI-solubilized alpha-oligonucleosomes with either HindIII, MboII or HaeIII (both before and after selective removal of histone H1 by an exchange onto tRNA) produce a self-consistent pattern of restriction site accessibilities. Taken together, these data strongly suggest a preferred nucleosome arrangement within the EcoRI-solubilized subset of alpha-oligonucleosomes, with the centers of most of the nucleosomal cores being approximately 20 bp and approximately 50 bp away from the nearest EcoRI and HindIII sites, respectively, within the 172-bp alpha-DNA repeat. However, as noted above, the clearly preferred pattern of nucleosome arrangement within the EcoRI-solubilized alpha-oligonucleosomes is invariably violated at the ends of every such alpha-oligonucleosomal particle, suggesting at least a partially statistical origin of this apparently non-random nucleosome arrangement.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Nucleosome arrangement in green monkey alpha-satellite chromatin. Superimposition of non-random and apparently random patterns. 631 39

We have studied the nature of chromatin alterations along immunoglobulin light chain (IgL) genes during B cell development using cultured murine cell lines. Employing a chromatin fractionation procedure on micrococcal nuclease-treated nuclei, we demonstrate that transcriptionally active k IgL chromatin lacks a canonical nucleosomal repeat and exhibits a pronounced association with insoluble nuclear material but is processed by nuclease to a soluble nucleosomal component that apparently lacks histone H1 and is enriched in high mobility group proteins. Of particular significance, utilizing a variant plasmacytoma cell line that has transcriptionally inactivated one k allele via a promoter deletion, we demonstrate that transcription per se is not responsible for these novel alterations. Furthermore, we show that the chromatin encompassing germline (unrearranged) and transcriptionally silent lambda IgL alleles in k-producing plasmacytomas exhibit some of the same unusual properties that are displayed by k alleles. Finally, we demonstrate that these alterations only occur in cell lines of the lymphocyte lineage that have progressed past the early pre-B cell stage; when inactive, both k and lambda IgL genes possess typical nucleosomal packaging and co-fractionate with histone H1-containing chromatin. These findings lead us to propose a model that predicts B cell stage-specific alterations in IgL chromatin prior to gene rearrangement and transcription.
...
PMID:Differentiation-dependent chromatin alterations precede and accompany transcription of immunoglobulin light chain genes. 642 43

Nucleosomes released from oviduct nuclei during brief micrococcal nuclease digestions are enriched in transcribed sequences (bloom K.S. and Anderson, J.N. (1978) Cell, 15, 141-150). Such nucleosomes released into this 1Sf supernatant fraction are enriched in proteins HMG14, 17 and a third lower molecular weight protein which we show in this paper to be related to HMG14 and 17. This protein, which we call HMGY, runs as a doublet on polyacrylamide gels. A similar doublet is present in smaller quantities in chicken erythrocyte nuclei. Monomer nucleosomes in the 1SF supernatant have been separated by polyacrylamide gel electrophoresis into two main bands. The slower moving band contains the three HMG proteins HMG14, 17 and Y but lacks histone H1.
...
PMID:The characterisation of 1SF monomer nucleosomes from hen oviduct and the partial characterisation of a third HMG14/17-like in such nucleosomes. 645 50

Calf thymus chromatin was fractionated by the Sanders' procedure ((1978) J. Cell Biol. 79, 97-109). this procedure involves sequential elutions of micrococcal nuclease-digested nuclei with buffers of increasing ionic strength. Through the use of the nuclei nick translation technique of Levitt et al. (Levitt, A., Axel, R., and Cedar, H. (1979) Dev. Biol. 69, 496-505) which specifically labels the transcriptionally competent regions of the chromosome, the lowest salt eluted, micrococcal nuclease-sensitive chromatin fraction, was found to be enriched in transcriptionally competent chromatin. This chromatin fraction contained approximately equimolar amounts of the core histones and low amounts of histone H1. In addition, this fraction was enriched both in the acetylated species of histone H4 and in the high mobility group (HMG) proteins 14 and 17, but it was depleted in 5-methylcytosine. As the ionic strength of the elution buffers increased, chromatin fractions from less micrococcal nuclease-sensitive chromatin domains were eluted. The nuclease-insensitive fractions were enriched in the unacetylated species of histone H4, 5-methylcytosine, and histone H1. Although these fractions had a smaller proportion of nucleosomes containing HMG-14 and HMG-17, they contained about 50% of the total HMG-14 and HMG-17 population.
...
PMID:Chemical composition of nucleosomes among domains of calf thymus chromatin differing in micrococcal nuclease accessibility and solubility properties. 645 37

We have investigated the loss of histone H1 from chromatin [D'Anna, J. A., Gurley, L. R., & Tobey, R. A. (1982) Biochemistry 21, 3991-4001] and the structure of chromatin from Chinese hamster (line CHO) cells blocked in early S phase by sequential use of isoleucine deprivation G1 block and 1 mM hydroxyurea (HU) blockade. Measurements of H1 content in the cell and histone turnover indicate that H1 is lost from the cell and that there is negligible replacement synthesis of H1 during the period of the S-phase block. As H1 is lost, chromatin appears to undergo structural change. After 10 h of HU block, the new deoxyribonucleic acid (DNA) and a portion of the old DNA have measured nucleosome repeat lengths (37 degrees C digestion) which are less than those of controls and similar to those observed by Annunziato and Seale [Annunziato, A. T., & Seale, R. L. (1982) Biochemistry 21, 5431-5438] for new immature chromatin in the absence of HU. By 24 h of HU block, nearly all of the chromatin has assumed a pseudoimmature conformation in which the nucleosome cores appear to be more closely packed along the DNA chain, but the new DNA is slightly more resistant than old DNA to attack by micrococcal nuclease. Electrophoretic analysis of nucleoprotein particles produced by micrococcal nuclease digestion of nuclei indicates that (1) the distribution of mononucleosome species changes during HU block and (2) some mononucleosome species appear to be enriched in normally minor proteins which may determine the electrophoretic mobility of the nucleoprotein particles in agarose-acrylamide gels. The results raise the possibility that (1) during the early stages of replication (or prior to the passage of the replication fork), H1 is dissociated from initiated replicons and (2) H1 does not reassociate in a concerted fashion with the H1-depleted chromatin until the replication fork has passed and, perhaps, a substantial portion of the replicon has been replicated.
...
PMID:Chromatin structural changes in synchronized cells blocked in early S phase by sequential use of isoleucine deprivation and hydroxyurea blockade. 668 60

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>