Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Specific immunochemical probes for Z-RNA were generated and characterized to search for possible Z-RNA-like double helices in cells. Z-RNA was detected in the cytoplasm of fixed protozoan cells by immunofluorescence microscopy using these anti-Z-RNA IgGs. In contrast, autoimmune or experimentally elicited anti-DNA antibodies, specifically reactive with B-DNA or Z-DNA, stained the nuclei. Pre-or nonimmune IgGs did not bind to the cells. RNase A or T1 digestion eliminated anti-Z-RNA IgG binding to cytoplasmic determinants; however, DNase I or mung bean nuclease had no effect. Doxorubicin and ethidium bromide prevented anti-Z-RNA antibody binding; however, actinomycin D, which does not bind double-stranded RNA, did not. Anti-Z-RNA immunofluorescence was specifically blocked in competition assays by synthetic Z-RNA but not Z-DNA, A-RNA, or single-stranded RNAs. Thus, some cytoplasmic sequences in fixed cells exist in the left-handed Z-RNA conformation.
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PMID:Cytoplasmic Z-RNA. 244 53

Plasmapheresis fluids from 20 patients with clinically active SLE, from three patients with Waldenstrom's disease, from three patients with rheumatoid arthritis, two patients with myasthenia gravis and other diseases including active systemic disorders were precipitated using polyethylene glycol 6000 (PEG). By applying ethidium bromide staining, plasma nucleic acids (PNA) could be demonstrated in PEG-precipitates of SLE patients exclusively. Purified immunoglobulins of SLE plasma precipitates were shown to form antigen-antibody complexes with PNA as demonstrated by electronmicroscopy. Further characterization of PNA by agarose gel electrophoresis revealed a molecular weight up to 20 kbp. Cesium chloride buoyant density gradients showed non-homogeneous molecules, excluding pure microbial origin. In spite of RNase digestion, the PNA contained RNA with 30-70% riboguanosine as shown by nucleoside analysis. The high amount of guanosine-rich RNA was further supported by similarities between PNA and polyriboguanylic acid in hyperchrome shifting due to thermic denaturation. HPLC analysis showed a molecular weight of ribonucleic acids of more than 60 b thus excluding mere oligonucleotides. In contrast to B-type dsDNA, PNA from SLE patients were immunogenic. Antibodies against PNA could be induced in rabbits by subcutaneous injection. The antisera thus obtained showed crossreactivity with polyriboguanylic acid and dsDNA preparations.
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PMID:Antibody binding of macromolecular DNA and RNA in the plasma of SLE patients. 246 74

The previously described poliovirus-associated protein kinase activity phosphorylates viral proteins VP0 and VP2 as well as exogenous proteins in the presence of Mg2+. In this paper, the effect of Zn2+ on the phosphorylation reaction and the stability of the poliovirus capsid has been studied in detail and compared to that of Mg2+. Phosphorylation patterns of viral and other proteins depend on the divalent cation present. In the presence of Zn2+, phosphorylation of capsid proteins VP2 and VP4 is significantly higher while phosphorylation of VP0 and exogenous phosphate acceptor proteins is not detected. Our results indicate the activation of more than one virus-associated protein kinase by Zn2+. The ion-dependent behavior of the enzyme activities is observed independently of whether the virus was obtained from HeLa or green monkey kidney cells. The poliovirus capsid is destabilized by Zn2+. The destabilization leads to a substantially increased permeability of virus particles to ethidium bromide and RNase, concomitant with decreased infectivity of the sample. This alteration of the poliovirus capsid structure is a prerequisite for effective phosphorylation of viral capsid proteins. The increased level of phosphorylation of viral capsid proteins results in further destabilization of the viral capsid. As a result of the conformational changes, poliovirus-associated protein kinase activities dissociate from the virus particle. High-performance liquid chromatography-purified viral protein VP2 is phosphorylated by the released enzymes on serine, threonine, and tyrosine in the presence of Zn2+. We suggest that the destabilizing effect of phosphorylation on the viral capsid plays a role in uncoating of poliovirus.
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PMID:Poliovirus-associated protein kinase: destabilization of the virus capsid and stimulation of the phosphorylation reaction by Zn2+. 254 9

A method is described which facilitates the rapid purification of high molecular weight chromosomal DNA from gram positive and gram negative bacteria grown on solid media. A total of 32 reference strains and fresh isolates were examined in this study. The purification procedure involved lysis of cells with SDS in the presence of proteinase K, followed by removal of cellular polysaccharides and proteins with hexadecyltrimethyl ammonium bromide (CTAB) and phenol:chloroform:isoamyl alcohol. Preparations were incubated with RNase and, after removal of the enzyme, DNA was precipitated with ethanol. Several hundred micrograms of DNA could be prepared within 5 h from cells grown on 1-2 agar plates. None of the final preparations contained RNA; protein was detected in 12/32 preparations. The resultant DNA proved suitable for restriction enzyme digestion and biotin-labelling by a random primer technique. DNA probes constructed from these preparations were capable of detecting 100 pg of homologous target DNA fixed to nitrocellulose. Cross reactions between closely related species displayed weaker signal intensities than, and, thus, were easily distinguished from, true positive reactions between homologous species. DNA obtained by this procedure may also be suitable for DNA-DNA homology studies, recombinant DNA experiments and molecular fingerprinting.
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PMID:Rapid method for the purification of DNA from subgingival microorganisms. 262 68

A novel replicating agent (IFDO) was isolated from ileal fluid. Growth occurred in vitro under aerobic and anaerobic conditions, and was faster at 37 degrees C than at room temperature. The doubling time was 15.8 min. Colonies were dark brown in colour and occurred beneath the surface of agar after conventional surface inoculation. Provisional data indicate that the agent may be a normal intestinal commensal. The agent was remarkably resistant to inactivation by steam at 134 degrees C, formaldehyde and glutaraldehyde; it was relatively resistant to ionising radiation, and it was filterable through membranes with a nominal pore diameter of 10 nm. Such properties, with the exception of growth in cell-free medium, are shared by "unconventional agents" such as those of Creutzfeldt-Jakob disease and scrapie. Further comparison of the properties of the intestinal agent and of slow viruses revealed additional shared characteristics, including resistance to proteinase K and trypsin, and inactivation by guanidine thiocyanate, diethyl pyrocarbonate, phenol and sodium hydroxide. The agent differs from that of scrapie in being inactivated by ethidium bromide, zinc nitrate, EDTA, hydroxylamine in the presence Sarkosyl, and, under certain circumstances, by ribonuclease. Broth cultures of the agent contained particles possessing considerable size heterogeneity. The smaller filterable particles were generally more susceptible to inactivation, did not survive autoclaving, and were inactivated by papaya protease and lipase. It is possible that the replicating agent may be formed by crystallisation from constituents of the medium, and not by a biological process. This does not exclude the postulated relationship to slow viruses.
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PMID:A novel replicating agent isolated from the human intestinal tract having characteristics shared with Creutzfeldt-Jakob and related agents. 265 97

Hen oviduct N alpha-acetyltransferase was clarified to have a nucleic acid as an existing constituent by the following three results: (i) an ultraviolet absorption spectrum of the purified N alpha-acetyltransferase free of S-acetyl coenzyme A (Ac-CoA) had an absorption maximum at 260 nm. (ii) A nucleic acid band stained with ethidium bromide was detected on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. (iii) An ethidium bromide band co-migrated with a fluorescent band of the protein treated with N-(7-dimethylamino-4-methylcoumarinyl)maleimide, a reagent specific for thiol groups, on polyacrylamide gel electrophoresis in the absence of sodium dodecyl sulfate. N alpha-Acetyltransferase lost its activity partially or completely by digestion with bovine pancreatic RNase A, Staphylococcus aureus nuclease, or proteinase K, showing that both the nucleic acid and the protein subunit were necessary for the enzyme activity. The nucleic acid component was identified as an RNA but not a DNA because the RNase T2 digest of the nucleic acid was composed of four 3'-ribomononucleotides and completely separated from 3'- and 5'-deoxyribomononucleotides on TLC. The chain length of the nucleic acid of 260 nucleotides estimated by formamide-polyacrylamide gel electrophoresis was calculated to be about 83,000 of the molecular weight. The contents of RNA (35.0%) and protein (65.0%) in N alpha-acetyltransferase determined on weight basis corresponded reasonably well to the contents of RNA (34.4%) and protein (65.6%) calculated based on the assumption that N alpha-acetyltransferase consisted of one molecule of 7 S RNA (Mr 83,000) and two identical Mr 79,000 protein subunits. The total molecular weight (241,000) of the holoenzyme calculated based on the above result was identical to the molecular weight (240,000) of N alpha-acetyltransferase estimated by Sepharose 6B gel filtration.
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PMID:Hen oviduct N alpha-acetyltransferase is a ribonucleoprotein having 7 S RNA. 275 10

Brome mosaic virus (BMV) is an icosahedral virus with a tripartite RNA genome which infects monocotyledonous plants, while the cowpea or legume strain of tobacco mosaic virus (CcTMV) is a rod-shaped virus with a single component RNA genome which infects dicotyledonous plants. To examine the potential for exchanging entire genes between RNA viruses, biologically active cDNA clones were used to replace the natural coat gene of BMV RNA3 with the coat gene and encapsidation origin of CcTMV. In protoplasts coinoculated with BMV RNAs 1 and 2, the resulting hybrid RNA3 was replicated by BMV trans-acting factors but was packaged in TMV coat protein to give rod-shaped particles rather than the usual BMV icosahedra. When the CcTMV encapsidation origin was suitably inserted in derivatives of BMV RNAs 1 and 2, these RNAs were also packaged in a ribonuclease-resistant form in protoplasts coinoculated with the hybrid RNA3 expressing TMV rather than BMV coat protein. Thus, despite the markedly divergent nature of BMV and TMV, replicating hybrids bearing characters derived from both parent viruses were produced. Such hybrid viruses could be of considerable value for studying specific steps in infection and for assigning functions to particular virus genes.
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PMID:Hybrid brome mosaic virus RNAs express and are packaged in tobacco mosaic virus coat protein in vivo. 284 11

The complete amino acid sequence of ribonuclease N1 (RNase N1), a guanine-specific ribonuclease from a fungus, Neurospora crassa, was determined by conventional protein sequencing, using peptide fragments obtained by tryptic digestion of cyanogen bromide-treated RNase N1 and by Staphylococcus aureus V8 protease digestion of heat-denatured RNase N1. The results showed that the protein is composed of a single polypeptide chain of 104 amino acid residues cross-linked by two disulfide bonds and has a molecular weight of 11,174: (sequence; see text) (Disulfide bonds: C2-C10, C6-C103) The amino acid sequence was homologous with those of RNase T1 (65% identity) and related microbial RNases.
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PMID:The amino acid sequence of ribonuclease N1, a guanine-specific ribonuclease from the fungus Neurospora crassa. 297 30

Until now the fluorescence assay with ethidium bromide has only been used on pure DNA. This assay depends on the difference in fluorescence between single- and double-stranded DNA (dsDNA). Cross-links in DNA are measured by the return of fluorescence of dsDNA after heat denaturation at pH 12. Under these conditions denatured DNA gives very low fluorescence. In the present study this assay was applied to tumor cells. The mouse Ehrlich ascites tumor cell line (EAT) and a human small-cell carcinoma line (GLC4) were incubated for 4 hr at 37 degrees C, with the cross-linking agent cis-diamino-dichloro platinum (cDDP). The samples of whole cells were thereafter resuspended in potassium phosphate buffer with 10 mM EDTA, 4M NaCl, 0.1% Sarkosyl pH 7.2, for 16 hr at 37 degrees C. Measurements were performed with a spectrofluorometer with excitation wavelength 525 nm, emission wavelength 580 nm. There was a linear relationship for cDDP concentrations of 0-150 microM and the extent of DNA cross-links in EAT (r = 0.958). In GLC4 there was a linear relationship at low cDDP concentrations of 0-50 microM (r = 0.968) while between 50 and 150 microM a plateau was reached. RNase added to the lysate of whole cells had no influence on the extent of cross-links. This assay was compared with the alkaline elution assay, and results were identical.
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PMID:Detection of DNA cross-links in tumor cells with the ethidium bromide fluorescence assay. 300 75

A simple, rapid and inexpensive scaled up miniprep procedure for preparing pure E. coli plasmid DNA is described. Bacterial cells were subjected to the boiling procedure and high molecular weight RNA was removed by LiCl-precipitation. Residual RNA and proteins were removed by subsequent treatment with RNase A and proteinase K/SDS respectively, followed by Sephadex G-50 and Sepharose 6B-Cl chromatography. The average yield from a 100 ml over-night bacterial suspension was 100 to 150 micrograms for pBR-322 DNA, and 250-500 micrograms for SP-6 derived recombinant plasmids. In addition, the described "scaled up" preparation does not require CsCl-ethidium bromide centrifugation; pure plasmid DNA can be prepared within 1 to 2 days.
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PMID:A rapid and inexpensive method for preparing E. coli plasmid-DNA. 301 51


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