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 sequence of the major nucleocapsid protein (NP) mRNA and its encoded protein were deduced by sequencing a cDNA clone representing the complete mRNA. The cDNA sequence was confirmed by dideoxynucleotide sequencing of purified viral genomic RNA by primer extension using synthetic oligonucleotides. The NP mRNA contains 1,641 nucleotides exclusive of poly(A) and encodes an NP protein of 515 amino acids. Alignment of the human parainfluenza type 3 virus (PF3) NP protein sequence with that of Sendai virus showed that the two proteins shared considerable sequence identity (58.8%). Additional comparisons provided highly significant statistical evidence that the PF3 NP protein sequence is related to those of measles and canine distemper viruses, but there was no evidence of relatedness with the nucleocapsid proteins of respiratory syncytial virus, influenza B virus, or vesicular stomatitis virus.
J Gen Virol 1986 Nov
PMID:Complete sequence of the major nucleocapsid protein gene of human parainfluenza type 3 virus: comparison with other negative strand viruses. 287 59

The roles of the L and NS polypeptides in transcription by vesicular stomatitis virus New Jersey were studied using a mutant, tsE1, which contains a temperature-sensitive transcriptase and an altered NS polypeptide, both phenotypic changes being the consequence of the ts mutation. Mutant tsE1, its revertant (tsE1/R1) and the wild-type virus were dissociated into sub-viral fractions and, after reconstitution of these fractions in all combinations, the transcriptase was assayed in vitro at the permissive (31 degrees C) and restrictive (39 degrees C) temperatures. Reconstitution of the pellet fractions (containing polypeptide N complexed with the virion RNA) and the supernatant fractions (containing polypeptides L and NS) restored transcriptase activity at 31 degrees C in all combinations, but at 39 degrees C transcription was observed only in the presence of the supernatant fractions of wild-type and revertant viruses but not in the presence of the supernatant fractions of tsE1. When the pellet fractions and the L fractions were reconstituted, the transcriptase activity was restored in all combinations both at 31 degrees C and 39 degrees C. However, in vitro transcription at 39 degrees C by reconstituted pellet and L fractions was strongly inhibited when the NS fraction of tsE1 was also added, while addition of the NS fractions of wild-type and revertant viruses had no effect. Since only traces of polypeptide NS were present in the L fractions and none in the pellet fractions, the results strongly suggest that polypeptide L is the transcriptase itself while polypeptide NS exerts some control over transcription.
J Gen Virol 1985 May
PMID:The role of polypeptides L and NS in the transcription process of vesicular stomatitis virus New Jersey using the temperature-sensitive mutant tsE1. 298 93

The structural proteins L and NS of vesicular stomatitis virus were obtained from purified viral ribonucleoprotein complex followed by phosphocellulose column chromatography and assayed for protein kinase activity using [gamma-32P]ATP as the phosphate donor. The fractions containing purified L protein phosphorylated NS protein in vitro. 8-Azido-ATP, a photoreactive analogue of ATP, was also used as the phosphate donor for phosphorylation of NS protein by the L protein. In the presence of ultraviolet light, only L protein was specifically cross-linked with 8-azido-[gamma-32P]ATP. In the absence of u.v. light 8-azido ATP did no inhibit RNA transcription in a reconstituted reaction or substitute ATP for RNA synthesis in vitro. The above results, taken together, suggest that 8-azido-ATP was bound to the kinase site and phosphorylation of NS protein was mediated by the L protein. Exogenous phosphate acceptor proteins such as phosvitin and casein were also phosphorylated by the L protein fraction. However, addition of an excess of phosvitin failed to compete with the phosphorylation of NS by L, indicating that the protein kinase activity possessed higher affinity for NS. The phosphorylation of NS was strongly inhibited by photoreaction of L protein with 8-azido-ATP with concomitant inhibition of transcription in vitro. These results suggest that phosphorylation of NS protein by L may have a role in the regulation of the virus genome transcription in vitro.
J Gen Virol 1985 May
PMID:In vitro phosphorylation of NS protein by the L protein of vesicular stomatitis virus. 298 94

IFN-alpha/beta has been suggested to require only one round of mRNA and protein synthesis to induce an antiviral state. We have examined the mechanism of induction of the antiviral states shown against three types of viruses: mengovirus (plus strand, sense RNA), vesicular stomatitis virus (VSV, minus strand RNA), and vaccinia virus (DNA). Mouse L cells were treated with IFN-alpha/beta and cycloheximide and then with actinomycin D on a schedule which allowed only one round of mRNA and protein synthesis. The cells were challenged with virus under single cycle growth conditions to determine the amount of antiviral activity against the particular challenge virus employed. These studies confirmed that most of the antiviral effect directed against VSV is achieved with one round of macromolecular synthesis. However, most of the antiviral effect directed against mengovirus and vaccinia virus seemed to require more than one round. These results suggest that IFN-alpha/beta induces two different antiviral states: one requiring one round of synthesis which is primarily responsible for the inhibition observed for VSV; and another requiring more than one round of synthesis which is primarily responsible for the inhibition observed for mengovirus and vaccinia virus.
J Gen Virol 1985 May
PMID:Evidence that IFN-alph/beta induces two antiviral states active against different viruses. 298

Two conditional transcriptase-negative mutants of vesicular stomatitis virus (VSV) serotype New Jersey, tsB1 and tsF1, their revertants tsB1/R1 and tsF1/R1 and the wildtype virus were dissociated into pellet, NS and L fractions and, after reconstitution of these in various combinations, the transcriptase activities were assayed in vitro at the permissive (31 degrees C) and restrictive (39 degrees C) temperatures. The pellet fractions contained the virion RNA-polypeptide N complexes, while the NS and L fractions were essentially pure preparations of these polypeptides. The synthesis of RNA by the reconstituted pellet and L fractions was inhibited at 39 degrees C only when the L fractions of tsB1 or tsF1 were used. Addition of the NS fractions to the reconstituted pellet and L fractions did not alter the rates of RNA synthesis. These results demonstrate that polypeptide L is the temperature-sensitive polypeptide of both mutants tsB1 and tsF1 and support previous observations that polypeptide L is the transcriptase itself. The fact that a second mutant of complementation group F, tsF2, is transcriptase-positive but replicase-negative suggests that polypeptide L is involved both in transcription and replication. Intracistronic complementations may account for the observation that the temperature-sensitive mutations affect polypeptide L in complementation groups B and F.
J Gen Virol 1985 Jul
PMID:Temperature sensitivity of the transcriptase of mutants tsB1 and tsF1 of vesicular stomatitis virus New Jersey is a consequence of mutation affecting polypeptide L. 299 27

The regulation of translation in reovirus-infected cells has been investigated by double-infection experiments. Different cell lines were able to translate uncapped encephalomyocarditis (EMC) virus mRNA and capped vesicular stomatitis virus (VSV) mRNAs both early and late during reovirus infection. These results are not fully in agreement with a previously suggested model in which, in the early phase of reovirus infection, only capped mRNAs are translated, whereas in the late phase the cells are modified to translate exclusively uncapped mRNAs. The observations that EMC virus and VSV shut down host protein synthesis more efficiently than reovirus translation in the late phase in double-infections indicate that competition for a message-discriminatory factor may not be involved in the shut-off of host protein synthesis in these animal virus-infected cells.
J Gen Virol 1985 Oct
PMID:The regulation of translation in reovirus-infected cells. 299 53

BHK-21 cells readily produce tumours in athymic nude mice, but BHK-21 cells persistently infected with wild-type vesicular stomatitis virus (VSV) do not. However, rare persistently infected virus-shedding tumours (VSV-P tumour cells) were independently derived by in vivo selection on three different occasions. Cloned viruses isolated from each of these (VSV-P virus mutants) carried mutations determining the VSV-P phenotype because they all allowed growth of virus-shedding tumours in nude mice when they were used to persistently infect normal (unselected) BHK-21 cells. Treatment of nude mice with anti-asialo-GM1 allowed BHK cells persistently infected with wild-type VSV to form tumours, and BHK cells persistently infected with VSV-P were resistant to natural killer (NK) cells in vitro; this implicates NK cells in the in vivo rejection of persistently infected tumours and in the selection of the VSV-P variant. In this paper, we have sequenced the glycoprotein (G protein), matrix (M) and non-structural (NS) proteins of three independently derived VSV-P type mutants to find mutations associated with in vivo passage of persistently infected nude mouse tumours and with resistance to NK cells. We found extensive mutation in the G protein of VSV-P but relatively few mutations in the M and NS proteins. This suggests but does not prove a role for the G protein in NK cell killing of infected cells.
J Gen Virol 1986 Mar
PMID:Evolution of vesicular stomatitis virus in athymic nude mice: mutations associated with natural killer cell selection. 300 78

High multiplicity infection of mouse fibroblast L-2 cells with mouse hepatitis virus (MHV) resulted, within 6 h, in a decline in total protein synthesis to about 7% of that observed in uninfected cells. The amount of intracellular total translatable RNA, however, increased approximately threefold, as a result of the accumulation of virus-encoded mRNAs. MHV-infected cells could be superinfected with vesicular stomatitis virus, demonstrating that MHV infection did not irreversibly alter the cellular translational machinery to the exclusion of non-MHV mRNAs. Comparative polysome analysis from MHV-infected and uninfected L-2 cells showed that MHV infection resulted in an increase in single 80S ribosomes and in a shift from longer to shorter polysomes. These observations suggest first, that MHV infection inhibits total protein synthesis at a very early stage, as evidenced by the increase in 80S ribosomes, and, second, that the increased number of viral mRNAs produced after infection compete with cellular mRNAs for cellular ribosomes. In vitro translation of RNA extracted from MHV-infected and mock-infected cells suggested that levels of cellular mRNAs were decreased after infection. This suggestion was confirmed by demonstrating the loss of cellular actin mRNA, using a radiolabelled cDNA probe, as a consequence of MHV infection.
J Gen Virol 1986 May
PMID:Translational control in murine hepatitis virus infection. 300 91

Multiply cloned variants of vesicular stomatitis virus (VSV) were found to generate/amplify defective interfering (DI) particles at a rate greatly exceeding the rates normally observed for wild-type VSV (or for other mutants of VSV). A single undiluted passage of the first clonal pool of this variant virus produced concentrated visible bands of DI particles on sucrose gradients whereas wild-type and other mutant strains of VSV required from three to six or more serial undiluted passages. Since DI particle amplification by wild-type VSV at each undiluted passage can exceed 10,000-fold enrichment, these variant virus clones were generating/amplifying DI particles many millions of times more rapidly than were wild-type and other mutant strains of VSV. This rate of generation/amplification is so high that it was not feasible to obtain accurate estimates of the rates of generation (or amplification) of these DI particles.
J Gen Virol 1986 Jun
PMID:Very rapid generation/amplification of defective interfering particles by vesicular stomatitis virus variants isolated from persistent infection. 301 77

A full length cDNA copy of the NS mRNA of the Missouri strain (Hazelhurst subtype, New Jersey serotype) of vesicular stomatitis virus (VSV) has been cloned and sequenced. The mRNA is 856 nucleotides long (excluding polyadenylic acid) and encodes a protein of 274 amino acids (mol. wt. 31 000). Comparison with the NS gene of the Ogden strain (Concan subtype, New Jersey serotype) showed 15% difference at the nucleotide level and 10% difference at the amino acid level; the majority of the changes were located in the 3' half of the mRNA. Comparison with the NS genes of two strains representing the Indiana serotype showed about 50% nucleotide and 33% amino acid sequence homology between the serotypes. In a four-way comparison of the proteins, two regions of higher homology were noted which may be of functional importance. Eighteen potential phosphorylation sites (Ser or Thr) were conserved between the four proteins; five of these sites correspond to the residues which have been suggested to be constitutively phosphorylated and may be essential for NS activity.
J Gen Virol 1986 Jul
PMID:Conservation of potential phosphorylation sites in the NS proteins of the New Jersey and Indiana serotypes of vesicular stomatitis virus. 301 48

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