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)

Because influenza viral RNA transcription in vitro is greatly enhanced by the addition of a primer dinucleotide, ApG or GpG, we have proposed that viral RNA transcription in vivo requires initiation by primer RNAs synthesized by the host cell, specifically by RNA polymerase II, thereby explaining the alpha-amanitin sensitivity of viral RNA transcription in vivo. Here, we identify such primer RNAs, initially in reticulocyte extracts, where they are shown to be globin mRNAs. Purified globin mRNAs very effectively stimulated viral RNA transcription in vitro, and the resulting transcripts directed the synthesis of all the nonglycosylated virus-specific proteins in micrococcal nuclease-treated L cell extracts. The viral RNA transcripts synthesized in vitro primed by ApG also directed the synthesis of the nonglycosylated virus-specific proteins, but the globin mRNA-primed transcripts were translated about 3 times more efficiently. The translation of the globin mRNA-primed, but not the ApG-primed, viral RNA transcripts was inhibited by 7-methylguanosine 5'-phosphate in the presence of S-adenosylhomocysteine, suggesting that the globin mRNA-primed transcripts contained a 5'-terminal methylated cap structure. We propose that this cap was transferred from the globin mRNA primer to the newly synthesized viral RNA transcripts, because no detectable de novo synthesis of a methylated cap occurred during globin mRNA-primed viral RNA transcription. Preliminary experiments indicate that other purified eukaryotic mRNAs also stimulate influenza viral RNA transcription in vitro.
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PMID:Globin mRNAs are primers for the transcription of influenza viral RNA in vitro. 28 99

Carefully controlled preparation of chromatin from purified chick liver nuclei yielded over 50% native chromatin as shown by the analysis of the nucleosome pattern after micrococcal nuclease digestion. The size of DNA in this chromatin as analyzed on alkaline sucrose gradients varied from 10S to 19S, the majority being 14S. All endogenous RNA polymerases were represented in the chromatin preparation although to different extents: RNA polymerase I was the most and RNA polymerase II the least abundant. Initiation studies showed that endogenous RNA polymerase II was capable of initiating RNA chains during 5 min. Saturation of chromatin with purified homologous RNA polymerase II increased initiation to 10 min. The addition of heparin caused the RNA transcribed to be larger in size and of increased yield. Chromatin transcription with added purified RNA polymerase II in the presence of heparin produced RNA as large as 32S. A chromatin preparation of this kind would therefore be suitable to transcribe any eukaryotic gene invitro provided additional homologous RNA polymerase II is used.Images
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PMID:Characterization of chick liver chromatin and analysis of its in vitro transcription products. 56 11

The developmentally regulated sea urchin early histone gene repeat (SUEHGR) from Strongylocentrotus purpuratus was isolated as chromatin by nucleoprotein hybridization. This technique is a novel method to isolate specific sequences as chromatin. Because the purification scheme is based only on the gene sequence and is independent of other physical properties such as protein composition and transcriptional activity, we were able to isolate the same gene in different functional states. Gene size chromatin fragments were solubilized by restriction endonuclease digestion of cell nuclei. Using T7 gene 6 exonuclease, the 3'termini of the fragments were exposed and then hybridized in solution to a biotinylated oligonucleotide complementary to one end of the SUEHGR fragment. The hybrids were bound to an Avidin D matrix. DTT cleavage of the biotin linker yielded a chromatin fraction greater than 700 fold enriched in SUEHGR. Overall yields were between 2% and 15%. The purity of the isolated material was independently measured to be greater than 80%. The homogeneous native structure of the inactive genes was preserved as shown by electron microscopy and micrococcal nuclease digestion of the purified SUEHGR. Minor heterogeneity was observed for the purified active genes by micrococcal nuclease digestion but the main features of the active chromatin were preserved during isolation. This isolation offers the first opportunity to study the structure of an RNA polymerase II gene at different stages of the cell cycle and development.
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PMID:Nucleoprotein hybridization: a method for isolating active and inactive genes as chromatin. 203 Sep 47

The reversible effect of dietary methionine deficiency was studied in young adult rats. The sensitivity of nuclear chromatin to micrococcal nuclease (EC3.1.4.7) digestion and the composition of the chromatin proteins were unaffected by the dietary regimens. The specific chromatin-bound RNA polymerase II activity decreased during methionine deficiency. Refeeding of methionine for 2 days restored the activity in the nuclease-released chromatin. RNA polymerase I plus III activity remained unchanged. Total RNA polymerase activity changed with the liver wet weight which was reduced during methionine deficiency and was not restored to control level after 2 days of methionine refeeding. RNA polymerase activity was altered by methionine deficiency. The recovery was independent of major modifications of the chromatin structure and protein composition.
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PMID:RNA polymerase activities and chromatin protein composition of rat liver during methionine deprivation and refeeding. 400 43

Extremely mild treatment with micrococcal nuclease of isolated nuclei yields subnuclear fractions in which the majority of RNA polymerase II transcriptional complexes formed in vivo are segregated [Tata & Baker (1978) J. Mol. Biol. 118, 249-272]. We now describe different approaches followed to established whether or not the nuclei are thus resolved into transcribed and non-transcribed DNA. First, we have compared the sensitivity to deoxyribonuclease I, which is known to digest preferably expressed genes as present in nuclei or chromatin, of three micrococcal-nuclease-derived fractions from nuclei of different transcriptional activities. In transcriptionally active nuclei (rat liver, hen liver and oviduct, and Xenopus liver), the DNA in a polynucleosomal fraction comprising 6-15% of DNA and the majority of template-engaged RNA polymerase II (fraction P2) was 10-50 times as sensitive to deoxyribonuclease I as the DNA in the other two fractions (fractions P1 and S, comprising 78-88% of total nuclear DNA as large polynucleosomal aggregates and 2-6% of DNA mostly as mononucleosomes, respectively). In transcriptionally inactive nuclei obtained from hen erythrocytes, micrococcal nuclease did not separate DNA into fractions exhibiting such differential sensitivities. Second, we have monitored the partition of an expressed gene. Hybridization of complementary DNA to Xenopus albumin mRNA revealed a 5-10-fold enrichment of the albumin (but not the globin) gene in the P2 fraction of nuclei from Xenopus liver in which this gene is fully expressed. Third, a large part of the nascent rapidly labelled RNA synthesized in vivo in rat liver nuclei was recovered in the micrococcal-nuclease-derived fraction that is more susceptible to digestion with deoxyribonuclease I. It is concluded that mild micrococcal-nuclease treatment of nuclei causes their separation into transcribed and non-transcribed DNA as determined by a number of very different criteria.
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PMID:Subnuclear fractionation by mild micrococcal-nuclease treatment of nuclei of different transcriptional activities causes a partition of expressed and non-expressed genes. 615 73

Nuclei isolated from uninfected HEp-2 cells synthesized RNA for 60 to 90 min. The individual RNA polymerase activities were determined by alpha-amanitin differential inhibition and the RNA products characterized by electron microscope (EM) autoradiography and sucrose gradient centrifugation. In nuclei prepared from poliovirus-infected cells, the capacity to synthesize RNA in vitro decreased with time after infection. RNA polymerase II activity (hnRNA synthesis) was preferentially inhibited more than was the polymerase I activity (rRNA synthesis). Poliovirus-infected cytoplasm (S-30) inhibited in vitro RNA synthesis in uninfected nuclei by selectively affecting the polymerase II activity. Selective inhibition of hnRNA synthesis by the crude extracts could be monitored by EM autoradiography directly. Determinations of individual RNA polymerase activities by differential alpha-amanitin inhibition were done only after treatment of the infected cytoplasm with micrococcal nuclease to abolish virus RNA replication. Selective inhibition of hnRNA synthesis depended on preincubation of the nuclei together with the infected cytoplasm, indicating that inhibitory substances from the infected cytoplasm entered the nuclei. Isolated nuclei therefore provide a useful system for studying the nature of the inhibitor(s) and of host RNA synthesis inhibition by picornaviruses.
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PMID:Poliovirus-induced inhibition of host RNA synthesis studied in isolated HEp-2 cell nuclei. 618 46

The effect of dimethylnitrosamine on functional activities of liver chromatin was studied in mice. After a single dose of dimethylnitrosamine injected i.v. (25 mg/kg body wt, 45 min before sacrifice) liver nuclei were isolated and incubated with micrococcal nuclease (EC 3.1.4.7) to an acid-solubility of 2.5% of total DNA. Chromatin was fractionated into a 1,200 g pellet P1, 102,000 g pellet P2 and supernatant fraction S2. Chromatin-bound RNA polymerase I plus III activity decreased 15% in the P1 and 25% in the P2 fraction. No changes in activity were observed in the S2 fraction. Chromatin-bound RNA polymerase II activity decreased 19% in the P1, 49% in the P2 and 32% in the S2 fraction. Heparin stimulated RNA polymerase II activity decreased 10% in the P1 and 44% in the P2 fraction. Formation of initiation in nuclear lysates with RNA polymerase from Escherichia coli increased after administration of dimethylnitrosamine suggesting an increase in the number of sites available for the start of new RNA chains. The results show that limited digestion of nuclei with endonuclease cleaves chromatin regions which are more affected by dimethylnitrosamine than the total chromatin suggesting a non-random effect of the hepatotoxin on chromatin. Modifications of the DNA template by dimethylnitrosamine is indicated by the change in number of initiation complexes.
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PMID:Non-random effect on RNA synthesis in liver chromatin by administration of dimethylnitrosamine to mice. 619 51

The administration of thyroxine to neonatal rats stimulates RNA synthesis by neuronal nuclei isolated from the developing rat brain cortex. Glial nuclei are relatively resistant to thyroxine treatment. The activity of neuronal RNA polymerase II is particularly stimulated by the hormone. Thyroxine also affects neuronal chromatin structure as shown by changes in the relative proportion of different subnuclear fractions obtained by gentle micrococcal nuclease digestion of nuclei from hormone-treated rats.
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PMID:Thyroxine preferentially stimulates transcription by isolated neuronal nuclei in the developing rat brain cortex. 620 58

When rat liver nuclei were digested with nuclease, we found that the chromatin-bound RNA polymerase II was liberated as two distinct complexes, peak 1 and peak 2, which seemed to reflect different functional states in cell nuclei. We further examined their occurrence in nuclear digests of various tissues of rats and the following results were obtained. Upon digestion with micrococcal nuclease of nuclei from brain, spleen, testis and kidney, chromatin-bound RNA polymerase II was liberated as two distinct forms which sedimented differently in a sucrose density gradient. The sedimentation rate of peak 1 varied depending on the tissue nuclei examined. After high salt or RNase treatment of the nuclear digests, peak 1 from liver, brain, spleen and testis nuclei showed the same sedimentation rate as did kidney peak 1, the rate for which remained unchanged by these treatments. The results suggested that peak 1 complexes from various tissue nuclei had basically the same structural organization, and we confirmed this by electrophoretic studies on RNase-treated liver and kidney nuclear digests. Peak 2 from various tissue nuclei exhibited identical sedimentation rates. Thus, the chromatin-bound RNA polymerase II seems to exist commonly in two distinct states in cell nuclei of rats.
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PMID:Two species of chromatin-RNA polymerase II complex are commonly present in nuclei of various tissues of rats. 652 8

Chromatin fragments of the RNA polymerase II-transcriptional complex were purified from the micrococcal nuclease digest of rat liver nuclei in the presence of n-butyrate, a potent histone deacetylase inhibitor. Polyacrylamide gel electrophoretic analysis in Triton acid-urea revealed that the extent of histone acetylation of the complex did not differ markedly from that of the total chromatin.
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PMID:Transcribing chromatin is not preferentially enriched with acetylated histones. 687 81

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