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)

We recently reported that vesicular stomatitis virus pol R mutants contain a template-associated N-protein alteration which allows for efficient readthrough of leader RNA termination sites in vitro (Perrault et al., Cell 35:175-185, 1983). We show here that in vitro RNA synthesis mediated by pol R virions is much more resistant to replacement of ATP by the analog beta,gamma-imido ATP than by wild-type virus (approximately 50% inhibition versus approximately 95%). Characterization of beta,gamma-imido ATP-resistant and control products by size, polyadenylic acid content, frequency of initiation at the 3' end of the template, and readthrough of the leader-N gene junction leads us to conclude the following: (i) most likely, the ATP dependence of the transcription process primarily reflects a requirement for initiation or entry of the polymerase at the 3' end of the template; (ii) this requirement is largely bypassed in the mutant pol R viruses; (iii) the synthesis of small, internally initiated transcripts by wild-type virus is less dependent on ATP than that of leader RNA; and (iv) termination at leader RNA sites is not directly affected when beta,gamma-imido ATP is added before initiation of synthesis. These results are discussed in terms of the possible roles of ATP and the nucleocapsid protein in initiation and termination of vesicular stomatitis virus RNA synthesis.
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PMID:ATP dependence of vesicular stomatitis virus transcription initiation and modulation by mutation in the nucleocapsid protein. 608 89

pppA2'p5'A blocked the production of infectious vesicular stomatitis virus in HeLa cells. When this compound was present from the beginning of infection, a selective inhibitory effect was observed in viral protein synthesis. Thus, cellular translation was not affected even after 10 h of incubation with this compound, and the bulk of viral proteins was not synthesized. However, this effect was not observed with ATP, GTP, or the core A2'p5'A. The step blocked by pppA2'p5'A is located early during virus infection, but adsorption, entry, and virus uncoating seemed to be unaffected by this compound. Analysis of the antiviral spectrum of pppA2'p5'A indicated that it is active against poliovirus, encephalomyocarditis virus, and Semliki Forest virus and shows no effect against herpes simplex virus type 1 and adenovirus type 5.
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PMID:pppA2'p5A' blocks vesicular stomatitis virus replication in intact cells. 609 Jun 95

The relationship between the in vitro phosphorylation of vesicular stomatitis virus (VSV) proteins and virion uncoating was examined. Activation of the VSV virion kinase with low concentrations of melittin, the active peptide component of bee venom, in the presence of gamma-[32P] ATP resulted in the phosphorylation of virion proteins. Following the in vitro phosphorylation of VSV proteins in the presence of melittin and deoxyadenosine triphosphate, the virion envelope was disrupted based on the accessibility of the internal ribonucleoprotein core (RNP) to the heavy metal stain, uranyl acetate, as determined by electron microscopic observation. The RNP structure was not observed in unphosphorylated virions treated with melittin and uranyl acetate. Phosphorylated virions treated with uranyl acetate subsequently lost the capacity for transcription whereas unphosphorylated virions treated with the stain retained transcriptase activity. These observations suggest that phosphorylation of VSV proteins may contribute to virion uncoating by disrupting the virus envelope.
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PMID:Phosphorylation of vesicular stomatitis virus proteins as a possible contributing factor in virion uncoating. 617 11

Receptor-bound alpha 2-macroglobulin (alpha 2M) undergoes a two-step process in its internalization by cultured fibroblasts. First, the receptor- alpha 2M complexes concentrate in coated pits on the cell surface. Second, the alpha 2M is internalized into endocytic vesicles we have termed receptosomes. Using a variety of monovalent ionophores and inhibitors of ATP synthesis, the present report provides data that discriminates between these two steps. Appearance of alpha 2M-receptor complexes in coated pits occurs at 4 degrees C and is inhibited by primary amines as well as some other drugs and chemical reagents [1, 2]. Internalization of alpha 2M-receptor complexes into receptosomes is inhibited by monovalent ionophores that disrupt proton gradients (monensin, nigericin, carbonyl cyanide p-trifluoromethoxyphenyl hydrazone, and 3,3',4',5-tetrachlorosalicyanilide), but not the Na+ specific ionophore antamanide or the K+ specific ionophore valinomycin. Using electron microscopy, the proton ionophores appear to interfere with the transfer of alpha 2M from coated pits to receptosomes. Prolonged incubation with monensin in the presence of alpha 2M also decreases the number of alpha 2M receptors on the cell surface, but this did not appear sufficient to account for the extensive inhibition of internalization. Monensin also inhibited the internalization of vesicular stomatitis virus and epidermal growth factor (EGF). Our data suggest that a proton gradient may be necessary for receptor-mediated endocytosis of alpha 2M and some other ligands.
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PMID:Binding and internalization of alpha 2-microglobulin by cultured fibroblasts. Effects of monovalent ionophores. 618 34

Soluble transcriptase containing the L and the NS proteins was isolated from purified vesicular stomatitis virus and its binding with the template ribonucleoprotein containing the N protein-RNA complex was studied with respect to its ability to initiate and synthesize RNA in vitro. By using u.v.-irradiated template reconstituted with soluble transcriptase, it was shown that the synthesis of leader RNA and other small initiated mRNA sequences continued while full-length mRNA synthesis decreased by 90%. In the presence of ATP and CTP, the reconstituted complex synthesized polyphosphorylated oligonucleotides which include AC, AAC and AACA which represent 5'-terminal sequences transcribed from the leader template and genes coding for mRNAs. In the presence of arabinosyl ATP, an inhibitor of RNA synthesis in vitro, the synthesis of leader RNA was found to be inhibited considerably more than other small initiated mRNA sequences. Reconstitution of RNA synthesis with soluble transcriptase and template in the presence of viral matrix (M) protein at low ionic condition resulted in virtual cessation of leader RNA synthesis, although the synthesis of small initiated N mRNA, 11 to 14 bases, continued. These results suggest that transcriptase can bind at multiple sites on the genome template and initiate RNA chains.
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PMID:Interaction of L and NS proteins of vesicular stomatitis virus with its template ribonucleoprotein during RNA synthesis in vitro. 619 59

Under the normal conditions of in vitro RNA synthesis, the virion-associated RNA polymerase of vesicular stomatitis virus synthesizes five monocristronic mRNAs and a 48-nucleotide-long leader RNA that represents the exact 3'-terminal region of the genome RNA [Colonno, R. J. & Banerjee, A. K. (1978) Cell, 15, 93-101]. When the transcribing core was preincubated with ATP and CTP, reisolated, and then incubated in the presence of the beta, gamma imido analogue of ATP (AdoPP[NH]P) and the three normal ribonucleoside triphosphates, the full-length complementary strand of the genome RNA was synthesized in vitro. The results suggest that specific phosphorylated states of regulatory proteins may control transcription in vitro to generate the full-length plus strands.
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PMID:In vitro synthesis of the full-length complement of the negative-strand genome RNA of vesicular stomatitis virus. 624 52

Under appropriate reaction conditions in vitro, four different defective-interfering particles of vesicular stomatitis virus have been shown to synthesize the full-length complement of their RNAs. The reaction involved preinitiation of the core particles with ATP and CTP, followed by RNA chain elongation in the presence of the beta, gamma-imido analogue of ATP, AdoPP[NH]P, and the three normal ribonucleoside triphosphates. By hybridization of the in vitro synthesized plus strand with the standard genome RNA followed by RNase treatment of the heteroduplexes, we have shown that the RNA of a defective-interfering particle derived from the 3' end of the genome RNA has evolved by an internal deletion of the standard genome.
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PMID:Synthesis in vitro of the full-length complement of defective-interfering particle RNA of vesicular stomatitis virus. 625 2

RNA genomes from standard vesicular stomatitis virus and two defective interfering (DI) particles dI 0.33 (DI-T) and DI 0.52, were purified and digested with RNase T1. The resulting oligonucleotides were labeled at the 5' end with [32P]ATP and separated by two-dimensional electrophoresis in polyacrylamide gels. All of the major oligonucleotides containing 20 or more nucleotides were sequenced. Those oligonucleotides that were thought to be in common by their migration on polyacrylamide gels actually did have identical sequences. Those oligonucleotides thought to be unique to the DI RNAs either differed by only one nucleotide from oligonucleotides of the standard RNA or contained new sequences which were complementary to known sequences at the 5' end. These data indicate that RNAs from DI particles are not simple deletions but contain point mutations and additional complementary sequences.
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PMID:Comparison of ribonucleotide sequences from the genome of vesicular stomatitis virus and two of its defective interfering particles. 626 Sep 89

In a previous communication we reported that the newly synthesized membrane glycoprotein of vesicular stomatitis virus could be transported in crude extracts of CHO cells from endoplasmic reticulum-derived membranes to membranes of the Golgi complex. This conclusion was an indirect one, based on the terminal glycosylation of this glycoprotein, a reaction that was dependent upon a Golgi-specific enzyme, UDP-GlcNAc transferase I. We show here that the Golgi fraction of rat liver will substitute for members of CHO cells as a source of transferase I in this reaction. The use of highly purified fractions of liver Golgi membranes, coupled with the ability to recover these membranes from incubations, has now permitted a direct demonstration of net transport of G protein to these heterologous Golgi membranes. This transport reaction is specific, in that the smooth endoplasmic reticulum fraction will not substitute for the Golgi fraction, is quantitatively significant, involving at least 30% of the viral glycoprotein, and is sustained only in the presence of both ATP and a soluble, cytosol fraction of liver cells.
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PMID:Transport of newly synthesized vesicular stomatitis viral glycoprotein to purified Golgi membranes. 626 30

Morphological changes were extensive following infection of murine neuroblastoma N-18 cells with a temperature-sensitive (ts) mutant of vesicular stomatitis virus (VSV), G31 (complementation group III), and incubation at 39 degrees C, a non-permissive condition for virion maturation. Incubation for 24 h after infection resulted in extensive morphological degeneration of mitochondria with over 80% from that in uninfected cells. Janus green B supravital staining, was reduced by 81% from that in uninfected cells. Cellular ATP levels were reduced by 50% 12 h after infection. Mitochondrial degeneration still occurred in infected cells after the inactivation of lysosomes with chloroquine. Extensive cell fusion and cytoplasmic vacuole formation also occurred during the non-permissive infection with ts G31. Loss of plasma membrane integrity was not the cause of vacuole formation since 90% of the cells were able to exclude trypan blue 24 h after infection, nor were the vacuoles the result of inactivation of the mitochondria since cyanide-poisoned cells did not form vacuoles. The cytopathic alterations observed in N-18 cells during the non-permissive infection of N-18 cells with ts G31 did not occur during the non-permissive infection of N-18 cells with ts G11 (I), ts G41 (IV), or u.v.-inactivated ts G31. However, the non-permissive infection with ts O45 (V) led to mitochondrial degeneration and cytoplasmic vacuole formation, but no cell fusion occurred. These results are discussed in light of the ultrastructural features previously observed in the central nervous system of mice infected with ts G31 and cells in culture infected with wild-type VSV.
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PMID:Cytopathic effects in mouse neuroblastoma cells during a non-permissive infection with a mutant of vesicular stomatitis virus. 627 Feb 68

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