Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The stability of nine viruses, Aujeszky, Sindbis, Vesicular Stomatitis, Newcastle Disease, Vaccinia, FMD, HCC, Reo and Teschen virus in drinking and surface water was investigated comparatively at temperatures of 9 and 15 degrees C as well as the influence of water factors like seasonal difference in temperature, pH value, hardness and sort of water. The results can be summarized as follows: 1. At temperatures of 9 to 15 degrees C the majority of the viruses remained stabil in natural water for an astonishing long time. 2. Starting with virus concentration of about 10(4) infectious units per ml Teschen, Vaccinia, Reo, HCC and ND virus could mostly be demonstrated in water longer than 200 days and FMD, Aujeszky, Vesicular Stomatitis and Sindbis virus for 20 to 50 days on average at 9 degrees C. The stability of the viruses investigated decreased in water in the named turn. 3. Based on these results it can be assumed that under natural conditions with very low virus content of some particles the labile viruses such as Toga, Herpes, Rhabdo and pH labile Picorna remain infectious in water for some days. They should not have any importance as water contaminants. More resistant viruses like Paramyxo may keep infectious for weeks and very stabile viruses such as Entero, Reo, Adeno and Pox viruses several weeks to months. 4. As to factors temperature, pH, hardness and sort of water-within the naturally differing range-only the temperature and only in the case of less resistant viruses showed significant influence on the virus stability in water.
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PMID:[Stability in drinking and surface water of nine virus species from different genera (author's transl)]. 1 60

An abortive infection of a rabbit cornea cell line (RC-60) by vesicular stomatitis virus (VSV), yielding less than 1 PFU/cell, was converted to a productive infection, yielding 1,900 PFU/cell, when cells were superinfected with vaccinia. Studies on the synthesis of VSV-directed RNA in RC-60 cells suggest that the abortive infection by VSV alone may be due in part to (i) a limited production of 40S virion RNA and (ii) a markedly reduced activity of virion-bound transcriptase activity in RC-60 cells compared to the activity in mouse L cells, a permissive host for VSV. No recognizable VSV structures, except a small amount of viral core structures, were produced by the abortive infection. In contrast, double infection of RC-60 cells with VSV and vaccinia in the presence of hydroxyurea resulted in the production of infective B particles of VSV. Although the function supplied by vaccinia responsible for the productive replication of VSV in double infected RC-60 cells has not been identified, metabolic inhibitor studies indicate that continuous vaccinia-dependent RNA synthesis is required for maximal production of infective VSV. The possibility is considered that vaccinia may supply a product or function required for VSV replication which is ordinarily supplied by the host but which is lacking in RC-60 cells.
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PMID:Abortive infection of a rabbit cornea cell line by vesicular stomatitis virus: conversion to productive infection by superinfection with vaccinia virus. 16 5

The production and effect of interferon in the virus-transformed cell line TGk1, originating from kidney cells of Testudo gracea were studied and compared to those in the primary cell culture. West Nile virus and Newcastle disease virus were used as inducers. Interferon production in TGk1 cells began 6 hr later than in the primary cell culture and reached the maximum 64 IU, 18 hr after virus inoculation. In the primary culture, interferon production increased till the 48th hr reaching a fourfold level (256 IU). A significant reduction of the antiviral effect of interferon against vesicular stomatitis virus but not against vaccinia virus was observed in the transformed cells. The decreased interferon production and effect in TGk1 cells is regarded as a consequence of the disturbance of the interferon regulatory mechanism taking place as a result of the virus-induced transformation.
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PMID:Interferon induction and action in transformed poikilothermic cells. 16 42

The enhancement of vesicular stomatitis virus plaques on human embryonic lung cells in the presence of Tween 80 or Aquasol A was studied to determine the optimal conditions for the enhancement. Enhanced numbers and sizes of vesicular stomatitis virus plaques occurred when Aquasol A or Tween 80 was added to the cell culture 30 min before virus adsorption but not when added after adsorption. These substances did not have a direct effect on the virus and did not have an effect on virus adsorption or penetration. A few other viruses and cell systems were also studied to determine if enhancement would extend to other viruses and cell systems. The cell system seemed to be important since enhancement of vesicular stomatitis virus plating efficiency did not occur on chicken embryo cells. However, the virus was also important since vaccinia virus plating efficiency was not enhanced on the human embryonic lung cell. The greatest enhancement encountered was the increase in the plating efficiency of Friend leukemia virus on S+L- cells.
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PMID:Effect to tween 80 and aquasol A on virus plaque formation. 17 Feb 2

Peripheral blood leukocyte and spleen cell cultures derived from adult sheep and from third-trimester (107 to 145 days of gestation) and second-trimester (70 to 98 days of gestation) fetal lambs were examined for their ability to support viral replication and to produce interferon. Bluetongue virus, Herpesvirus hominis type 2, and Chikungunya virus failed to replicate in either leukocyte or spleen cell cultures derived from adult ewes or in cultures from second- or third-trimester fetal lambs. Similarly, peripheral blood leukocytes from adult sheep or third-trimester fetal lambs did not support the replication of Semliki Forest virus, vesicular stomatitis virus, Newcastle disease virus, or vaccinia virus. No major differences were observed in the ability of fetal and adult leukocytes to produce interferon in response to viral infection. In contrast, mean interferon titers induced by bluetongue virus, H. hominis type 2, and Chikungunya virus in spleen cells from second-trimester fetuses were 4- to 10-fold greater than those induced in spleen cells from adult ewes. Variations in interferon levels induced on separate occasions with cells from the same donor age group were observed. The antiviral substance induced in both the fetal and adult cell cultures fulfilled the usual criteria for characterization as interferon.
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PMID:Viral replication and interferon production in fetal and adult ovine leukocytes and spleen cells. 17 52

Guinea-pigs were immunized with different cells infected with vaccinia virus, herpes simplex virus type 1, herpesvirus saimiri, and the virus of vesicular stomatitis. Development of cellular immunity against these viruses was observed with transformation of blood and spleen lymphocytes and with the migration inhibition test using peritoneal exudate cells. Cellular immunity against vaccinia virus was first seen 6 days after the inoculation of cell-bound vaccinia virus by lymphocyte transformation. The avtivation of the vaccinia virus specific cellular immune response could be induced with tissue culturrus. Since infectious virus particles are not synthesized within this time period, it is likely that virus-induced antigens in the cell surface are active in production of cellular immunity. Vaccines from heterologous host cells were more effective inducers of an immune response than syngeneic cell cultures. For in vitro testing of cellular immunity to viruses, viral antigens could be used in both infective and inactivated form. Delayed hypersensitivity to viral antigens was always accompanied by immune reactions to the host cells used for virus propagation.
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PMID:Induction and in Vitro demonstration of cellular immunity to DNA and RNA viruses in guinea-pigs. 17 85

Antibodies which completely inhibited the enzymatic activity of the protein kinase associated with virions of frog virus were obtained by immunization of rabbits with the purified enzyme. This inhibition provided a specific probe for the frog virus protein kinase, since this antiserum had no inhibitory effect on a variety of other protein kinases, including the activity of uninfected cells, or the protein kinase associated with vesicular stomatitis virus or vaccinia virus cultivated in the same cell line as frog virus. The frog virus protein kinase was characterized as a virus-specified protein on the basis of the following observations: (a) the virion protein kinase was antigenically distinct from essentially all of the protein kinase expressed in uninfected cells; (b) following infection by frog virus more than a 15-fold increase was detected in the specific activity of intracellular protein kinase and most of this activity was antigenically related to the virion enzyme; (c) when frog virus was grown in cells derived from widely different species, the antigenic and biochemical specificities of the virion protein kinase remained identical; and (d) screening of cells infected with different temperature-sensitive mutants of frog virus indicated that certain viral mutants failed to synthesize this protein kinase when cultivated at the nonpermissive temperature.
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PMID:Characterization of a virion protein kinase as a virus-specified enzyme. 17 63

Several viruses were categorized on the basis of their ability to spread from cell to contiguous cell and form plaques in the presence of antiviral antibody. Herpes simplex virus, cytomegalovirus, and vaccinia, measles, and foamy viruses were able to spread in the presence of neutralizing antibody, whereas coxsackievirus, encephalomyocarditis virus, vesicular stomatitis virus, mumps virus, and simian virus 5 failed to spread. A detailed study of one of these virus groups (simian foamy viruses) suggested that the ability of these viruses to spread from cell to cell in the presence of antiviral antibody, the failure of antiviral antibody and complement to lyse infected cells, and the poor induction and relative resistance of these viruses to the antiviral action of interferon contribute to the persistent nature of this infection.
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PMID:Viral spread in the presence of neutralizing antibody: mechanisms of persistence in foamy virus infection. 18 50

The infectivities of herpes simplex virus types 1 and 2 were inactivated by silver nitrate at concentrations of 30 muM or less, which did not affect at all the infectivities of hemagglutinating virus of Japan, vesicular stomatitis virus, poliovirus, vaccinia virus, and adenovirus. The inactivated virus retained the capability of adsorbing to the cell, with an adsorption kinetics quite similar to that of intact virus, and of inducing the concanavalin A agglutinability in the infected cells, whereas it lost completely the capability of producing viral antigens and other cytopathic changes.
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PMID:Specific inactivation of herpes simplex virus by silver nitrate at low concentrations and biological activities of the inactivated virus. 18 46

The capacity of human sera genetically deficient in selective complement (C) components to enhance neutralization of enveloped viruses was examined by kinetic plaque reduction assays. Vaccinia virus, a DNA virus, and vesicular stomatitis virus (VSV), an RNA virus, were studied. Exogenous rabbit: or human antibody to vaccinia virus, and guinea pig or human antibody to VSV were provided in limiting, C-dependent concentrations. IgG antibodies predominated in most of the antisera employed. C5-deficient and C6-deficient human sera consistently supported normal rates of neutralization of either virus; this effect was heat-labile. C4-deficient human serum did hot exceed heat-inactivated serum in any neutralization assay. C1r-deficient serum displayed slight heat-labile neutralizing capacity against vaccinia but none against VSV. C2- and C3-deficient sera consistently exhibited measurable but clearly subnormal rates of neutralization. Two fresh agammaglobulinemic sera failed to inactivate either virus in the absence of added antibody. These results confirm and extend earlier evidence, based on neutralization of herpes simplex and Newcastle disease viruses in the presence of early (IgM) antibody and functionally pure guinea pig C components or C-deficient animal sera, that the late-acting components C5-C9 are not required for C-dependent neutralization. Data on four enveloped viruses now agree that this function is mediated by C1-C3, although C1 plus C4 appear to have some neutralizing capacity. This requirement for C1-C3 is overcome, however, in the presence of higher antibody cohcentrations, suggesting that the contribution of the C system to viral neutralization in vivo may be chiefly in the early phase of infection when antibody is limited.
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PMID:Effect of selective complement deficiency on the rate of neutralization of enveloped viruses by human sera. 18 1


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