UMLS:C0038362 - FACTA Search

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of some known ionic and nonionic detergents as well as that of a novel nonionic detergent MESK on various enveloped viruses were investigated. It was found that nonionic detergens (MESK, Triton X-100, octyl-beta-D-glucopyranoside) selectively solubilize glycoproteins of enveloped viruses. The most mild selective action is exerted by the nonionic detergent MESK. Using this detergent, pure preparations of glycoproteins of influenza, parainfluenza, equine Venezuela encephalomyelitis, rabies, vesicular stomatitis and herpes viruses were obtained. The procedure of isolation of purified glycoproteins includes incubation of viral suspensions with MESK, removal of subviral structures by centrifugation and purification of glycoproteins from detergent admixtures by dialysis. Purified glycoproteins retain their native structure and a high biological activity and immunogenicity. MESK seems to be due a perspective tool in the production of subunit vaccines.
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PMID:[Solubilization of glycoproteins from enveloped viruses by detergents]. 370 22

The glycoprotein, but no other virion protein, of vesicular stomatitis virus was solubilized by the nonionic detergent Triton X-100 in low ionic strength buffer. The solubilized viral glycoprotein induced the synthesis of antibody that formed a single precipitin line with the glycoprotein and that neutralized the infectivity of the virus. The neutralizing activity of the antibody was efficiently blocked by purified glycoprotein.
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PMID:The glycoprotein of vesicular stomatitis virus is the antigen that gives rise to and reacts with neutralizing antibody. 411 69

Transcriptase activity was dissociated from vesicular stomatitis virions by highionic-strength buffer containing Triton X-100. Considerable enzyme activity could be restored by recombining inactive sedimentable and nonsedimentable virion fractions. Reconstituted transcriptase activity was dependent on the presence of all four nucleoside triphosphates and the concentration of heat-labile molecules in both supernatant and pellet fractions. Lower NaCl concentrations removed approximately 46% of virion protein, but did not release transcriptase activity from the pellet fraction, nor could incorporation of (3)H-uridine-5'-triphosphate by complete virions be increased by adding soluble transcriptase. Evidence that the virion nucleocapsid is the transcription template was provided by finding that the pellet contained predominantly virion core nucleoprotein, ribonucleic acid, and homogeneous nucleocapsid coils when viewed by electron microscopy. Removal of envelope G and M proteins by Triton and low-salt buffer without decreasing nucleocapsid polymerase activity indicates that neither G nor M protein is necessary for transcription. Additional data are required to determine whether the minor nucleocapsid proteins L or NSl, or both, which are at least partially solubilized in high-salt buffer, are the transcriptase. Preliminary data suggest that the major N nucleoprotein, which was not solubilized by high-salt buffer, is also required for transcription. Defective T virions contained at least as much transcriptase per weight as did B virions, as determined by restoration with T supernatant fluids of transcription function to B nucleocapsid template. However, the T nucleocapsid would not serve as template for B or T transcriptase, a finding which is interpreted as evidence of T template defectiveness. The presence of defective T nucleocapsids did not interfere with B or T transcriptase function reconstituted with B template.
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PMID:Dissociation and reconstitution of the transcriptase and template activities of vesicular stomatitis B and T virions. 434 47

The endogenous transcriptase present in purified vesicular stomatitis (VS) virions was solubilized with a Triton X-100 high-salt solution. The polymerase activity was purified on glycerol gradients and by phosphocellulose column chromatography; the viral proteins present in the active enzyme fractions were identified by sodium dodecyl sulfate polyacrylamide gel electrophoresis. It was demonstrated that L protein, but not NS protein, was required for in vitro RNA synthesis on the VS viral nucleocapsid template. Solubilized L protein rebinds to the ribonucleoprotein template when the transcription complex is reconstituted, and the RNA synthesized in vitro by purified L protein hybridizes to virion RNA. Cyanogen bromide peptide fingerprints indicate that the large L protein is a unique polypeptide chain. It is concluded that the L protein functions as the transcriptase, and the nucleocapsid NS protein is not essential for in vitro RNA synthesis.
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PMID:L protein requirement for in vitro RNA synthesis by vesicular stomatitis virus. 435 10

The ribonucleoprotein-dependent RNA transcriptase in vesicular stomatitis B virions of four temperature-sensitive (ts) mutants belonging to complementation group I was analyzed in vitro at permissive (31 C) and restrictive (39 C) temperatures. The RNA-synthesizing activity of all four ts mutants was more labile at 39 C than was the transcriptive activity of wild-type (wt) virions. In order to locate the temperature-sensitive transcription defect in the mutants, wt and ts mutant virions were fractionated by Triton X-100-high salt solubilizer into a sedimentable ribonucleoprotein template and a nonsedimentable enzyme fraction, each of which alone had little or no transcriptive activity. The template- and enzyme-containing fractions of wt virions were then tested for their capacity to restore transcriptive activity at 39 C to corresponding template and enzyme preparations of ts mutant virions. Recombination of wt template and ts enzymes resulted in no significant restoration of capacity to synthesize RNA at restrictive temperature. In contrast, transcriptive function at 39 C was reconstituted by recombining the wt enzyme with the template component of ts mutants. It appears, therefore, that the enzyme, rather than the template, is the temperature-sensitive component of the transcription complex of group I vesicular stomatitis virus mutants.
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PMID:Location of the transcription defect in group I temperature-sensitive mutants of vesicular stomatitis virus. 435 28

The toxic protein, Pardaxin, of the Red Sea flatfish Pardachirus marmoratus readily induced transcription of vesicular stomatitis virus by making the virion membrane permeable to nucleoside triphosphates in the absence of nonionic detergents. Virion transcription was activated over a wide range of Pardaxin concentrations, but at optimal concentrations, the rate of transcription exceeded that induced by Triton X-100. The inhibitory effect of M protein was manifested for both Pardaxin-induced and Triton-induced transcription at high concentrations of vesicular stomatitis virions; however, unlike the Triton-induced reaction, the inhibitory effect of M protein was not reversed by polyglutamic acid added to the Pardaxin-induced transcription reaction. We propose that activation of virion transcription by Pardaxin resembles more closely intracellular transcription initiated by virion penetration than does detergent-activated transcription of vesicular stomatitis virus.
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PMID:Transcription of vesicular stomatitis virus activated by pardaxin, a fish toxin that permeabilizes the virion membrane. 626 49

A sensitive enzyme immunoassay (EIA) for determining the biological activity of human interferon was developed. Green monkey kidney (Vero) cells and human embryonic lung (HEL) cells were grown in microtitre plates, treated with leukocyte interferon (IFN alpha) and infected with vesicular stomatitis virus (VSV). Cells were fixed with paraformaldehyde and permeabilized with Triton X-100. Viral antigen synthesis was measured by labelling the cells with VSV antiserum followed sequentially by protein A horseradish peroxidase conjugate and o-phenylenediamine. Interferon activity was detected as a lowering of the absorbance value from that of the virus control wells, reflecting the inhibition of virus protein synthesis by interferon. The minimum amount of interferon producing statistically significant (P less than 0.01) decrease of absorbance in Vero cells was 1-5 international units (I.U.)/ml as in the standard plaque reduction test the detection limit was 7.5 I.U./ml or more. In HEL cells the detection limit was 1 I.U./ml measured by EIA. The EIA for interferon activity is at least as sensitive as the traditional plaque reduction test. It is reproducible, easy to automatise and requires 7-10 times less cell culture materials than the plaque reduction test. We find it preferential especially when large numbers of specimens with limited volumes are to be analysed for interferon activity.
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PMID:Sensitive interferon assay based on immunoenzymatic quantification of viral antigen synthesis. 629 74

Purified preparations of Sindbis virus, a member of the togavirus family, are mitogenic for lymphocytes from a number of different mouse strains. Cell separation techniques, as well as studies using lymphocytes from the congenitally athymic BALB/c nu/nu mouse, showed that Sindbis virus is a T-cell-independent B-cell mitogen. Additionally, the envelope glycoproteins of Sindbis virus, isolated by Triton X-100 extraction and butanol precipitation, stimulated lymphocytes to incorporate five times as much [3H]thymidine into their DNA as did the Sindbis virion. These results are similar to those previously reported for vesicular stomatitis virus and herpes simplex virus types I and II and for the purified glycoproteins of vesicular stomatitis virus and influenza virus.
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PMID:Mitogenic activity of Sindbis virus and its isolated glycoproteins. 698 18

We compared the trafficking of the glycosylphosphatidylinositol (GPI)-anchored placental alkaline phosphatase (PLAP) and two chimeric transmembrane proteins containing the PLAP ectodomain in stably transfected Madin-Darby canine kidney epithelial cells to determine whether different mechanisms might be used in apical sorting of GPI-anchored and transmembrane proteins. PLAP-G, which contained the transmembrane and cytoplasmic domains of the vesicular stomatitis virus glycoprotein, was delivered directly to the basolateral surface. PLAP-HA contained the transmembrane and cytoplasmic domains of influenza hemagglutinin. Both PLAP and PLAP-HA were delivered directly to the apical membrane. PLAP becomes insoluble in Triton X-100 during biosynthetic transport, as it associates with detergent-resistant membranes. Neither hybrid protein was detergent insoluble, though the small amount of PLAP that was missorted to the basolateral surface was insoluble. We examined the effects of three drugs known to interfere with membrane trafficking on sorting and delivery of PLAP and the hybrid proteins. Monensin had no effect on sorting or surface expression of any of the proteins. Nocodazole affected the sorting of both PLAP and PLAP-HA but not of PLAP-G. Brefeldin A appeared to disrupt the sorting of PLAP and PLAP-HA but not of PLAP-G. This conclusion was tempered by the observation that this drug affected the distribution of proteins at the cell surface. Thus, sorting and transport of GPI-anchored and apical transmembrane proteins are similar in a number of respects.
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PMID:Sorting and intracellular trafficking of a glycosylphosphatidylinositol-anchored protein and two hybrid transmembrane proteins with the same ectodomain in Madin-Darby canine kidney epithelial cells. 755 31

After intranasal instillation of mice with vesicular stomatitis virus (VSV), olfactory receptor neurons are infected. By 12 to 24 hr postinfection, VSV antigens are observed in adjoining supporting and basal cells and in other structures of the olfactory epithelium and lamina propria. Peripheral deafferentation of the olfactory epithelium with Triton X-100 or bilateral surgical bulbectomy does not prevent spread of VSV to the central nervous system (CNS); the route of spread differs considerably from the route taken when the olfactory nerve is intact. In contrast to rabies virus and HSV-1, VSV does not use the trigeminal nerve for entry into the brain, as the trigeminal ganglion remains virus-free following intranasal infection. These results indicate that VSV has a strong tropism for olfactory receptor cells, using them for entry into the CNS. Both retrograde and anterograde transneuronal and nonneuronal (ependymal cells and cerebrospinal fluid) pathways are utilized by VSV within the CNS.
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PMID:The earliest events in vesicular stomatitis virus infection of the murine olfactory neuroepithelium and entry of the central nervous system. 774 78

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