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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 composition and structure of three discrete nucleohistone particles produced by micrococcal nuclease digestion of the complex formed when the four core histones are mixed directly with DNA under conditions that are close to physiological have been reported in accompanying articles (Ellison, M. J., and Pulleyblank, D. E. (1983) J. Biol. Chem. 258, 13307-13313; 13314-13320). These include a peak containing a compact hexameric complex composed of one pair of (H3,H4) and two pairs of (H2A,H2B) (P2) and a peak containing complexes with the composition and sedimentation properties of nucleosome cores (P3). We have examined the pathways of assembly of P2 and P3 by determining the effect of order of histone addition on the yields of these species. The assembly of P2 is initiated by the binding of an (H2A,H2B) pair to the DNA which then directs the placement of an (H3,H4) pair. The incorporation of the final (H2A,H2B) pair to complete the particle is probably cooperative. The assembly of P3 is less dependent than the assembly of P2 upon the order in which the histone pairs are added to the DNA. More than one pathway has been implicated in the formation of these particles. P3 contains a component which has many but not all of the properties of nucleosome cores assembled at elevated ionic strength. Alternative pathways of assembly of histone pairs onto DNA are discussed which could lead to the formation of the discrete histone DNA structures that have been isolated here. A model is proposed in which the nucleosome unfolds and refolds into an alternative configuration.
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PMID:Pathways of assembly of nucleohistone complexes formed in vitro under physiological conditions. Implications for the structure of the nucleosome. 663 Feb 33

An activity which facilitates assembly of nucleosome-like structures in vitro at physiological ionic strength was detected both in human HeLa S3 cells and mouse FM3A cells. The assembly protein was purified from FM3A cells by fractionation with ammonium sulfate, DEAE-cellulose, phosphocellulose, Sephadex G-150 column chromatography, and sucrose gradient centrifugation. In the sucrose gradient, the activity was detected at 5S and the active fraction contained three peptides of 59,000, 65,000, and 102,000 daltons. When core histones were mixed with these peptides, the 59,000 peptide sedimented at the 6S and 10S positions, where the histones co-sedimented. The 6S fraction contained H2A, H2B, and A24 proteins, and the 10S fraction contained four kinds of core histones in equal amounts. Nucleosomes were formed by mixing DNA with the 10S fraction, but were not formed with the 6S fraction. The nucleosome structure assembled was assessed using the sensitivity to micrococcal nuclease.
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PMID:A protein which facilitates assembly of nucleosome-like structures in vitro in mammalian cells. 664 19

We have studied the functional properties of iodinated histones. Isolated, denatured histones were iodinated at trace levels and then renatured together with carrier histones and high molecular weight DNA to form nucleohistone. Nucleosomes were prepared from the reconstitute using micrococcal nuclease, and the relative representations of the individual iodinated tyrosines of the histones in the reconstituted nucleosomes were determined. Our principal findings are 1) that denatured histones can be iodinated at any tyrosine without interfering in subsequent nucleosome reconstitution and 2) that the resulting reconstituted nucleosomes nevertheless possess histone cores of altered stability, being either more or less stable depending on the particular tyrosine which is iodinated. We show that tyrosines 37, 40, and 42 of H2B are protected from iodination in intact core particles, as expected since these tyrosines lie within the H2B-H2A binding site. Yet iodination of these tyrosines in denatured H2B does not interfere with nucleosome assembly. However, the histone cores isolated from these reconstituted nucleosomes are of diminished stability as assayed by Sephadex column chromatography in 2 M salt. In contrast, iodination of tyrosines 83 and 121 of H2B, as well as iodination of the tyrosines of H2A, increases the stability of the histone octamer core. Iodination of H4 tyrosine 72 is without effect on histone octamer stability. Tyrosine iodination constitutes a profound amino acid alteration in the context of the absolute evolutionary conservation of most histone tyrosines. For example, all H2Bs sequenced to date, from fungi to mammals, possess tyrosines at positions 37, 40, and 42. Our results suggest that the immutability of these tyrosines reflects some sophisticated function of the nucleosome histone core beyond the assembly and mere maintenance of a compact structure.
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PMID:Role of histone tyrosines in nucleosome formation and histone-histone interaction. 670 50

A mouse monoclonal IgM antibody against the core histone H2B has been shown, by indirect immunofluorescence, to stain metaphase chromosomes from a variety of cultured cell types. Experiments carried out with human HeLa cells showed that the intensity of staining varied along the length of chromosome arms giving in some cases a rudimentary banded staining pattern. Considerable variation in staining intensity was noted between individual chromosomes and between different metaphase spreads. It was noted that chromosomes having a more swollen appearance stained more intensely than those with a more compact structure, which were often unstained. Preincubation of unfixed metaphase chromosomes in buffered salt solutions virtually eliminated the cell to cell and chromosome to chromosome variation in staining, even when no visible effect on chromosome morphology was caused by such treatment. It is concluded that the determinant recognised by antibody HBC-7 is ubiquitous but is inaccessible in some chromosomes or chromosome regions. Digestion of purified chromatin (primarily interphase) with DNAase 1 or micrococcal nuclease resulted in a several-fold increase in the binding of antibody HBC-7 measured by solid-phase radioimmunoassay. This increase was abolished by subsequent treatment with trypsin, which suggests that the antigenic determinant recognised by antibody HBC-7 lies in the trypsin-sensitive N-terminal region of nucleosomal H2B. As the cationic N-terminal regions of the core histones are involved in DNA binding, it is likely that the accessibility of the determinant recognised by antibody HBC-7 is influenced by the relationship between the core histones and their associated DNA.
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PMID:Immunofluorescent staining of human metaphase chromosomes with monoclonal antibody to histone H2B. 676 Oct 99

Nuclei from butyrate-treated or control HeLa cells were separated into micrococcal nuclease sensitive and resistant chromatin. Those regions most sensitive to the nuclease, amounting to some 10% of the chromatin, consisted mainly of mononucleosomes with equimolar amounts of the inner histones H2A, H2B, H3, and H4, very little H1, and equimolar amounts of the two small high-mobility group (HMG) proteins, HMG-14 and -17. Both in butyrate-treated and in control cells, these nuclease sensitive monomers were some 5--7-fold enriched in DNA sequences which are transcribed into cytoplasmic polyadenylated RNA, while resistant monomers are depleted in the same sequences. Electrophoretic analyses of the transcriptionally active mononucleosomes revealed heterogeneity. Several subcomponents were resolved when monomers of butyrate-treated or control cells were electrophoresed at low ionic strength. Active monomer subcomponents differ in their molar content of HMG-14 and -17, in their content of H1 and A24, and in the length of their DNA. Some minor differences between nucleosomes of butyrate-treated and control cells were observed.
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PMID:Structure of transcriptionally active and inactive nucleosomes from butyrate-treated and control HeLa cells. 689 35

We have described earlier a chromatin-bound protease with unique specificity for histone H2A [Eickbush, T. H., Watson, D. K., & Moudrianakis, E. N. (1976) Cell (Cambridge, Mass.) 9, 785--792]. In the present study, we explore the nature of interactions that form and stabilize the enzyme-chromatin system by using the activity of the protease to monitor its binding to DNA and DNA-histone complexes. During salt extraction of chromatin, the protease is released at an ionic strength between that required for the extraction of the slightly lysine-rich histones (H2A and H2B) and the arginine-rich histones (H3 and H4). The reassociation of this nonhistone protein to DNA has an absolute requirement for the H3--H4 tetramer and is only enhanced by the H2A--H2B dimer in the presence of the tetramer. We believe that the binding of the enzyme onto DNA requires some histone-elicited compaction of the helix. We have also examined the distribution of this enzyme within the chromatin fiber by isolating pools of monomer nucleosomes from micrococcal nuclease digests of 0.6 M NaCl extracted chromatin and from reconstituted DNA-protein complexes. The H2A-protease is found with these monomer nucleosome pools, and no activity can be detected in the low molecular weight products released during the digestion. Thus, by virtue of its extraction characteristics from chromatin and its association with isolated nucleosomes, this nonhistone protein exhibits properties hitherto assigned only to the inner histones.
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PMID:Histone-dependent reconstitution and nucleosomal localization of a nonhistone chromosomal protein: the H2A-specific protease. 704 60

Mononucleosomes isolated from micrococcal nuclease digests of stationary phase chromatin of the yeast Saccharomyces cerevisiae were compared both compositionally and physiochemically with those from chicken and bovine calf. It was found that while yeast mononucleosomes are similar in composition, their thermal denaturation profiles and circular dichroism spectra indicate a less constrained structure. Furthermore, yeast nucleosomes were discovered to be labile in solutions of low ionic strength and could not be reconstituted by methods applicable to calf and chicken nucleosomes. On the basis of the reconstitution of a hybrid nucleosome containing calf histones H2A, H2B, and H3 and yeast histone H4, it was concluded that variations in the yeast H4 sequence are unlikely to be responsible for the apparent decrease in the stability of yeast nucleosomes. Examinations of histone-histone interactions in free solution revealed a change in the H3-H4 interaction and together with the previously published results of other researchers it was inferred that changes in the H3 sequence might be responsible for this structural variation.
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PMID:Structural studies on yeast nucleosomes. 704 1

Nucleosome core particles and oligonucleosomes were isolated by digesting rat testis nuclei with micrococcal nuclease to 20% acid-solubility, followed by fractionation of the digest on a Bio-Gel A-5m column. The core particles thus isolated were characterized on the basis of their DNA length of 151 +/- 5 base-pairs and sedimentation coefficient of 11.4S. Analysis of the acid-soluble proteins of the core particles indicated that histones TH2B and X2 are constituents of the core particles, in addition to the somatic histones H2A, H2B, H3 and H4. The acid-soluble proteins of the oligonucleosomes comprised all the histones, including both the somatic (H1, H2A, H2B, H3, H4 and X2) and the testis-specific ones (TH1 and TH2B). It was also observed that histones TH1 and H1 are absent from the core particles and were readily extracted from the chromatin by 0.6 M-NaCl, which indicated that both of them are bound to the linker DNA.
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PMID:Localization of testis-variant histones in rat testis chromatin. 712 75

Comparison has been made between sea urchin and starfish sperm chromatin. The only protein by which chromatins from these sources differ significantly is histone H2B. Sea urchin sperm H2B is known to contain an elongated N-terminal region enriched in Arg. Analysis of the micrococcal nuclease digests of sea urchin and starfish nuclei in one- and two-dimensional electrophoresis has shown that sperm chromatin of both animals consists of repeated units similar in general features to those of rat thymus or liver. However, DNA repeat length in chromatin of sea urchin sperm (237 bp) is higher than that of starfish sperm (224 bp), while the core DNA length does not differ and is the same as in the chromatin of rat liver or thymus. A suggestion has been made that the N-terminal region of histone H2B is associated with the linker DNA and is responsible for the increased length of sea urchin linker DNA.
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PMID:Nucleosomal structure of sea urchin and starfish sperm chromatin. Histone H2B is possibly involved in determining the length of linker DNA. 722 Mar 45

Nucleic prepared from mouse submandibular salivary gland show marked fragility during isolation. Hwever, intact nuclei relatively free from cytoplasmic contamination were obtained by homogenization in buffers containing 0.88 M-sucrose, Ca2+, spermine, spermidine and the proteinase inhibitor aprotinin, followed by centrifugation through 2.2 M-sucrose. The kinetics of digestion by the micrococcal nuclease of chromatin in these nuclei are similar to those of chromatin from mouse liver nuclei. Base-pair size analysis of the solubilized DNA from both organs shows a stable high-molecular weight species of chromatin, which is further digested to mononucleosome and subnucleosome species. With extensive digestion the chromatin becomes insoluble. The mononucleosomes produced from salivary-gland chromatin after the inhibition of endogenous proteinase activity exhibit an s20,w value of 11S and contain histones H1, H2A, H2B, H3 and H4.
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PMID:Digestion by micrococcal nuclease of mouse submandibular-salivary-gland chromatin. 739 53


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