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)

Nuclei from Ehrlich ascites cells were treated with micrococcal nuclease or DNase I and extracted with 1 mM EDTA. The chromatin fraction released by this procedure showed positive flow linear dichroism (LD) at low salt (2 mM NaCl) while the non-released fraction had negative LD. Furthermore, the chromatin structure responsible for the positive LD was found to be labile: The LD was reduced by heat (37 degrees C) or RNase treatment and inverted to a negative LD by electric fields (10 kV/cm) and by the presence of DNA binding dyes.
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PMID:On the structure of active chromatin. A flow linear dichroism study of chromatin fractionated by nuclease digestion. 623 51

We have examined the chromatin organization of the Drosophila melanogaster ribosomal RNA genes using both micrococcal nuclease and DNase I. Several findings are of interest. First, the transcribed DNA segments of the rRNA repeat unit appear to be packaged into an unstable or "multiphasic" nucleosome structure. Second, the 5' end of the transcription unit is preferentially exposed to nuclease attack. Third, the non-transcribed spacer immediately upstream from the transcription start site has a novel chromatin organization with micrococcal nuclease and DNase I cleavage sites spaced at intervals of about 240 base-pairs. This unusual fragment distribution appears to reflect the underlying sequence organization of the spacer DNA segment, which consists of a series of tandemly repeated 239 base-pair sequence blocks. We have also examined the chromatin structure of the rRNA repeat unit after extraction of nuclei with different concentrations of salt. Our results suggest that the higher order structures may be of importance in determining the novel chromatin organization of the rRNA repeat unit.
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PMID:Ribosomal RNA genes of Drosophila melanogaster have a novel chromatin structure. 623 26

We describe a method for isolation and purification of the chromosomal proteins HMG1 and HMG2 in non-denaturing conditions which overcomes the difficulties of the published methods concerning yield and purity. The method is based on salt extraction, selective precipitation with ammonium sulfate and DEAE-cellulose chromatography. All studied properties of these proteins (formation of protein tetramers, enhancement of micrococcal nuclease digestion of DNA and chromatin, and protection of 165-basepair DNA in chromatosome) differ significantly from the properties of HMG1 and 2 isolated under denaturing conditions.
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PMID:Isolation of high-mobility-group proteins HMG1 and HMG2 in non denaturing conditions and comparison of their properties with those of acid-extracted proteins. 623 58

Two decathymidylate analogues, d-(TpTp)4TpT-isomer 1 and isomer 2, having stereoregular, alternating methylphosphonate/phosphodiester backbones were prepared. The phosphodiester linkages of d-(TpTp)4TpT are cleaved slowly by snake venom phosphodiesterase in a stepwise manner, while slow random cleavage occurs with micrococcal nuclease which hydrolyzes isomer 2 faster than isomer 1. The CD spectra of isomer 1 and d-(Tp)9T are identical suggesting they have similar conformations, while that of isomer 2 shows an overall reduction of [theta]. Isomer 1 forms a 1T . 1A complex with poly(dA) and both 1T . 1A and 2T . 1A complexes with poly(rA), while isomer 2 forms a 2T . 1A complex of low thermal stability with poly(dA) and no complex with poly(rA). The Tm values of the partially nonionic d-(TpTp)4TpT . polynucleotide complexes are less dependent on salt concentration than are those of d-(Tp)9T. The stoichiometry and CD spectra of the complexes suggest that poly(dA) . isomer 1 duplex assumes a B-type geometry while isomer 2 . poly(dA) . isomer 2 triplex and the isomer 1 . poly(rA) complexes have an A-type geometry. Although there are no apparent differences between steric restrictions to rotation about the backbones of either isomer 1 or 2, or steric restrictions to complex formation, the results suggest that the configuration of the methylphosphate linkage controls: 1) interaction with nucleases, 2) oligomer conformation, and 3) interaction with polynucleotides. The latter effects may result from differences in solvation of the two isomers.
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PMID:Oligothymidylate analogues having stereoregular, alternating methylphosphonate/phosphodiester backbones. Synthesis and physical studies. 625 51

The solubilization of oestrogen receptors from uterine nuclei by micrococcal nuclease and deoxyribonuclease I was examined after the injection of oestradiol or Nafoxidine into castrated female rats. At 1h after an injection of oestradiol, 30% (0.18pmol/mg of DNA) of the nuclear oestrogen receptors was solubilized by 5 min of mild digestion with either nuclease. No further receptor release occurred, although DNA hydrolysis continued throughout a 20min interval. The limitation in receptor solubilization was not due to an artifact of digestion conditions or insufficient nuclease concentrations. Similar patterns of receptor solubilization and DNA hydrolysis were obtained with both nucleases whether the animals had been injected with oestradiol 1h before death or if the uteri from uninjected animals were incubated with [(3)H]oestradiol for 1h in vitro. When uterine nuclei were digested with these enzymes 12h after the animal was injected with oestradiol there was little change in the quantity of nuclease-sensitive sites (0.11pmol/mg of DNA); however, the quantity of nuclease-resistant sites decreased 10-fold. These values correspond quantitatively to the changes in salt-resistant and salt-extractable sites observed over a 12h interval after oestradiol treatment. Nuclease digestion of uterine nuclei obtained 16h after Nafoxidine treatment gave a pattern qualitatively and quantitatively similar to that observed 1h after oestradiol treatment, a result consistent with the agonist/antagonist action of this compound. An analysis by sucrose-density-gradient centrifugation of the time course of nuclease-dependent receptor solubilization indicated that the solubilized receptors were not associated with discrete nucleosomal fragments. We believe that these data indicate that only a portion of the receptors translocated to the nucleus become associated with chromatin, and this association may occur on regions of chromatin that are preferentially susceptible to nucleolytic cleavage.
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PMID:Nuclear association states of rat uterine oestrogen receptors as probed by nuclease digestion. 627 14

Translation of globin mRNA in a micrococcal nuclease-treated reticulocyte lysate was studied in the presence of increasing amounts of Mengovirus RNA, under conditions in which the number of translation initiation events remains constant as judged by the transfer of label from N-formyl[35S]methionyl-tRNAf into protein. The translation of globin mRNA is progressively inhibited by low concentrations of Mengovirus RNA, free of detectable traces of double-stranded RNA, concomitant with the increasing synthesis of Mengovirus RNA-directed products. On a molar basis, Mengovirus RNA apparently competes about 35 times more effectively than globin mRNA for a critical component in translation. The competition is relieved by the addition of highly purified eukaryotic initiation factor 2 (eIF-2). Addition of eIF-2 does not stimulate overall protein synthesis, but shifts it in favor of globin synthesis. No stimulation of globin mRNA translation by eIF-2 is seen when Mengovirus RNA is absent. These experiments show that Mengovirus RNA competes, directly or indirectly, with globin mRNA for eIF-2. In direct binding experiments using isolated mRNA and eIF-2, Mengovirus RNA is shown to compete with globin mRNA for eIF-2 and to exhibit a 30-fold higher affinity for this factor. The binding of Mengovirus RNA to eIF-2 is much more resistant to increasing salt concentrations than is the binding of globin mRNA, again reflecting its high affinity. These results reveal a direct correlation between the ability of these mRNA species to compete in translation and their ability to bind to initiation factor eIF-2. They suggest that the affinity of a given mRNA species for eIF-2 is essential in determining its translation, relative to that of other mRNA species. Messenger RNA competition for eIF-2 may contribute significantly to the selective translation of viral RNA in infected cells.
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PMID:Translational control by messenger RNA competition for eukaryotic initiation factor 2. 627 73

Brief micrococcal nuclease digestion of chick embryonic red blood cells results in preferential excision and solubilization of monomer nucleosomes associated with beta-globin sequences and also 5'-sequences flanking the beta-globin gene. Both regions are DNAse-I sensitive in nuclei. Such salt-soluble nucleosomes are enriched in all four major HMG proteins but HMG1 and 2 are only weakly associated. These nucleosomes appear to have lost much of the DNAse-I sensitivity of active genes. The HMG14 and 17-containing salt-soluble nucleosomes separated by electrophoresis are not DNAse-I sensitive and contain inactive gene sequences as well as active sequences. Reconstitution of HMG proteins onto bulk nucleosomes or chromatin failed to reveal an HMG-dependent sensitivity of active genes as assayed by dot-blot hybridization and it was found that the DNAse-I sensitivity of ASV proviral sequences as assayed by dot-blot hybridization was not HMG-dependent. These results indicate that higher order chromatin structures might be responsible for nuclease sensitivity of active genes.
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PMID:The nuclease sensitivity of active genes. 630 Jul 66

A large body of circumstantial evidence indicates that receptors located in nuclei of T3 responsive tissues represent a site of initiation of thyroid hormone action at the cellular level. Partial characterization of T3 receptors indicates that these proteins are monomeric structures in nuclei and are chromatin-associated non-histone proteins. Treatment of rat liver nuclei with either pancreatic DNase I or micrococcal nuclease releases T3 receptors from nuclei in two forms: a predominant (95 400 Mr; 5.5-6.0S) and a minor (265 000-365 000 Mr; 12.5S) nucleoprotein complex. Similar structures are excised from rat kidney, brain, and heart nuclei and from GH1 pituitary cell nuclei by micrococcal nuclease digestion. These endonuclease-excised receptor-containing complexes are significantly larger than the salt-extracted receptor (50 000 Mr; 3.5S). The presence of DNA and other non-receptor proteins in these structures indicates that T3 receptors probably function within multimeric complexes in vivo. Although T3 receptors appear to be associated with DNA between nucleosomes, i.e. linker DNA, it is not entirely clear whether all or only a fraction of T3 receptors interact with nucleosomal components. The 12.5S receptor-containing nucleoprotein complex may represent T3 receptors in association with linker DNA and nucleosomal components. T3 receptors do not appear to be uniformly distributed to all chromatin fractions, but are associated with structures having characteristics of transcriptionally active chromatin. They are found in a region of chromatin which is enriched in RNA polymerase activity, rapidly labeled RNA and non-histone proteins, and depleted of histone Hl. This region is also highly sensitive to both micrococcal nuclease and pancreatic DNase I digestion. The association of receptors with transcriptionally active chromatin, however, must be considered provisional until additional details of the precise receptor-chromatin interaction have been established. The recent demonstration of a 20-fold increase in a specific hepatic mRNA four hours following administration of T3 to hypothyroid rats indicates that thyroid hormone potentially has very rapid effects on hepatic gene expression. However, significant changes in nuclear protein phosphorylation, nuclear protein composition, and chromatin structure have not been detected within this four-hour period. Thus, effects of T3 on hepatic gene expression are brought about by local and presumably subtle changes in nuclear function.
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PMID:Association of thyroid hormone receptors with chromatin. 631 18

Nuclease digestion of isolated nuclei was used to test whether differential chromatin structure exists for a dosage-compensated heat shock gene in Drosophila pseudoobscura. No differences were observed in nuclease sensitivity at this locus in males and females, either under heat shock or non-heat shock conditions, using micrococcal nuclease or DNase I. Although the higher level of nuclease sensitivity characterized by the induced state was removed when nuclei were prepared in high salt (0.45 M sodium chloride), this procedure did not reveal covert differences in X-linked chromatin structure between males and females. However, a clear difference was observed in the nuclease sensitivity at low level (uninduced) and high level (heat-induced) expression of the X-linked heat shock gene, suggesting that the same gene transcribed at two steady state rates can have different chromatin structures.
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PMID:Chromatin structure and transcriptional activity of an X-linked heat shock gene in drosophila pseudoobscura. 631 15

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.
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PMID:Chemical composition of nucleosomes among domains of calf thymus chromatin differing in micrococcal nuclease accessibility and solubility properties. 645 37

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