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

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.
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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

Various aspects of the biogenetic mechanisms that are involved in the insertion of nascent plasma membrane proteins into the endoplasmic reticulum (ER) membrane and their subsequent distribution through the cell have been investigated. For these studies chimeric genes that encode hybrid proteins containing carboxy-terminal portions of the influenza virus hemagglutinin (154 amino acids) or the vesicular stomatitis virus envelope glycoprotein (G) (60 amino acids) linked to the carboxy terminus of a nearly complete secretory polypeptide, growth hormone (GH), were used. In in vitro transcription-translation experiments, it was found that the insertion signal in the GH portion of the chimeras led to incorporation of the membrane protein segments into the ER membrane. Effectively, GH became part of the luminal segment of membrane proteins of which only very small segments, corresponding to the cytoplasmic portions of the G or HA proteins, remained exposed on the surface of the microsomes. When the chimeric genes were expressed in transfected cells, the products, as expected, failed to be secreted and remained cell-associated. These results support the assignment of a halt transfer role to segments of the membrane polypeptides that include their transmembrane portions. The hybrid polypeptide containing the carboxy-terminal portion of HA linked to GH accumulated in a juxtanuclear region of the cytoplasm within modified ER cisternae, closely apposed to the Golgi apparatus. The location and appearance of these cisternae suggested that they represent overdeveloped transitional ER elements and thus may correspond to a natural way station between the ER and the Golgi apparatus, in which further transfer of the artificial molecules is halted. The GH-G hybrid could only be detected in transfected cells treated with chloroquine, a drug that led to its accumulation in the membranes of endosome or lysosome-like cytoplasmic vesicles. Although the possibility that the chimeric protein entered such vesicles directly from the Golgi apparatus cannot be ruled out, it appears more likely that it was first transferred to the cell surface and was then internalized by endocytosis.
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PMID:Biosynthesis and intracellular sorting of growth hormone-viral envelope glycoprotein hybrids. 299 6

The interaction of mRNA with proteins in vesicular stomatitis virus (VSV)-infected cells was studied by photochemical cross-linking in intact cells. The major [35S]methionine-labeled proteins which became cross-linked by UV light to mRNA in uninfected and in VSV-infected HeLa cells were similar and had apparent mobilities in sodium dodecyl sulfate-polyacrylamide gel electrophoresis corresponding to 135, 93, 72, 68, 53, 50, 43, and 36 kilodaltons. The proteins which were cross-linked in vivo specifically to the five mRNAs of VSV were labeled through radioactive nucleotides incorporated only into VSV mRNAs under conditions (5 micrograms of actinomycin D per ml) in which only VSV mRNAs are labeled. The same major mRNP proteins that became cross-linked to host mRNAs also became cross-linked to VSV mRNAs, although several quantitative differences were detected. Photochemical cross-linking and immunoblotting of cross-linked mRNPs with VSV antiserum demonstrated that in addition to host proteins VSV mRNAs also became cross-linked to the VSV-encoded N protein. The poly(A) segment of both host and VSV mRNAs was associated in vivo selectively with the 72-kilodalton polypeptide. The major proteins of mRNA-ribonucleoprotein complexes are therefore ubiquitous and common to different mRNAs. Furthermore, since the major messenger ribonucleoproteins interact also with VSV mRNAs even though these mRNAs are transcribed in the cytoplasm, it appears that nuclear transcription and nucleocytoplasmic transport are not necessary for mRNA to interact with these proteins.
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PMID:Interaction of mRNA with proteins in vesicular stomatitis virus-infected cells. 300 93

cDNAs encoding either the structural proteins (capsid and glycoproteins E1 and E2) of Sindbis virus or the glycoprotein of vesicular stomatitis virus (VSV) were fused to the Saccharomyces cerevisiae galactokinase gene (GAL1) promoter and inserted into a yeast shuttle vector. After addition of galactose to yeast transformed with this vector, 2.5-3% of total yeast protein synthesis was detected as virus proteins by specific anti-virus protein antibodies. In cells containing the Sindbis virus structural genes, the virus capsid protein was effectively released from the nascent polypeptide and two endoglycosidase H-sensitive glycoproteins were produced. One of these was identical in its gel mobility to E1 and the other appeared to be p62, a precursor to E2. A low level of E1 protein was detected on the cell's surface membranes. A single molecular weight species of glycosylated VSV glycoprotein was produced and half of the total protein could be detected at the surface membranes of yeast. Addition of long mannose chains and acylation of the virus proteins with fatty acids were not observed. Formation of virus proteins was also examined in yeast secretory mutants; one of these (sec53) failed to glycosylate the virus proteins.
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PMID:Regulated expression of Sindbis and vesicular stomatitis virus glycoproteins in Saccharomyces cerevisiae. 301 23

Molecular hybrids were synthesized by coupling (2'-5')(A)n oligoadenylates or 2-5A, an intracellular mediator involved in antiviral activity of interferons (IFNs), with poly(L-lysine) used as a membrane carrier. (2'-5')(A)n in its free form was not taken up by cells, probably because of its ionic character. Conjugation with the polypeptide carrier overcame this problem and enabled its pharmacological properties to be developed. The alpha-glycol group of individual (2'-5')(A)n oligomers was oxidized by periodate oxidation and conjugated by an amino reductive reaction to poly(L-lysine), Mr 14 000, in a molar ratio of 5:1. These hybrid molecules left the biologically active 5' end moiety of the (2'-5')(A)n molecule unchanged, and in particular its triphosphate group, and stabilized the molecule by increasing its resistance to phosphodiesterase hydrolysis. A dose-dependent inhibition of virus growth was observed on concomitant incubation of (2'-5')(A)n-poly(L-lysine) conjugates with vesicular stomatitis virus infected L1210 cell cultures. This was a result of the activation of the (2'-5')(A)n-dependent endoribonuclease (RNase L) by intracellularly delivered (2'-5')(A)n as in some IFN-treated virus-infected cells. Indeed, (2'-5')(A)n-poly(L-lysine) conjugates bind RNase L effectively as can be seen from their ability to compete with authentic (2'-5')(A)n in a cell-free radiobinding assay. Moreover, (2'-5')(A)n-poly(L-lysine) conjugates promote transient inhibition of protein synthesis and a characteristic cleavage pattern of ribosomal RNAs in intact cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of ribonuclease L by (2'-5')(A)4-poly(L-lysine) conjugates in intact cells. 301 97

The nucleocapsid of vesicular stomatitis virus (VSV) was introduced into the cytoplasm of Saccharomyces cerevisiae by low pH-dependent fusion of the viral envelope with the spheroplast plasma membrane. This led to de novo synthesis of the three major structural proteins of the virus--the G, N, and M proteins--as shown by immunoprecipitation of [35S]methionine-labeled spheroplast lysates. In NaDodSO4/polyacrylamide gel electrophoresis, M and N proteins comigrated with those of the virion, whereas the yeast-made G protein migrated as two bands with apparent molecular sizes of 60 and 70 kDa. Both polypeptides appeared to be N-glycosylated, since only one polypeptide with the apparent molecular mass of approximately equal to 55 kDa was produced in the presence of tunicamycin. Phase separation into Triton X-114 suggested that the unglycosylated G protein was membrane bound. According to immunofluorescent surface staining of live spheroplasts, at least part of the G protein was transported to the plasma membrane. Spheroplasts expressing the VSV genes could be fused together by low pH to form polykaryons, indicating that G protein synthetized by yeast was fusogenic--i.e., biologically active.
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PMID:Expression of the RNA genome of an animal virus in Saccharomyces cerevisiae. 302 81

In polarized epithelial cells, influenza virus buds exclusively from the apical domain of the plasma membrane, whereas vesicular stomatitis virus (VSV) buds exclusively from the basolateral domain. In virus-infected cells, the envelope proteins, influenza hemagglutinin (HA) and vesicular stomatitis virus G (VSV G), are likewise transported to and localized in the same domain of the plasma membrane from which the viruses bud. Previous studies have shown that influenza HA and VSV G proteins, when expressed from cloned cDNAs, are accumulated preferentially on the proper domains (apical and basolateral, respectively), indicating that the signal(s) for polarized transport resides in the polypeptide backbone of the proteins. To further elucidate the structural features required for apical vs. basolateral transport, we have constructed a gene that encodes a chimeric protein (H1GA) containing the external domain of HA and the transmembrane and cytoplasmic domains of VSV G. When the chimeric protein (H1GA) is expressed in CV1 cells using a simian virus 40 late expression vector, it is transported to the cell surface with kinetics similar to that of the native HA protein. Further, the chimeric protein, when expressed in polarized MDCK cells using a vaccinia virus early expression vector, is transported only to the apical surface, suggesting that the ectodomain of HA contains a signal for apical transport.
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PMID:Polarized expression of a chimeric protein in which the transmembrane and cytoplasmic domains of the influenza virus hemagglutinin have been replaced by those of the vesicular stomatitis virus G protein. 302 35

Twenty-five spontaneous temperature-stable revertants of four different temperature-sensitive (ts) M protein mutants (complementation group III: tsG31, tsG33, tsO23, and tsO89) were sequenced and tested for their ability to inhibit vesicular stomatitis virus RNA polymerase activity in vitro. Consensus sequences of the coding region of each M protein gene were determined, using total viral RNA as template. Fifteen different sequences were found among the 25 revertants; 14 differed from their ts parent by a single amino acid (one nucleotide), and 1 differed by two amino acids (two nucleotides). Amino acids were altered in various positions between residues 64 and 215, representing over 60% of the polypeptide chain. Resequencing of the Glasgow and Orsay wild types and the four ts mutants confirmed previously published differences (Y. Gopalakrishana and J. Lenard, J. Virol., 56:655-659, 1985), and one or two additional differences were found in each. The relative charges of the revertant M proteins, as determined by nonequilibrium pH gradient electrophoresis, were consistent with the deduced sequences in every case. The ability of each revertant M protein to inhibit the RNA polymerase activity of nucleocapsids prepared from its parent ts mutant was also tested. Only 13 of the 25 revertants had M protein with high (wild type-like) polymerase-inhibiting activity, while 5 had low (ts-like) activity, and 7 had intermediate activity, demonstrating that this property is not an essential concomitant of the temperature-stable phenotype. It is concluded that the high reversion frequency observed for these mutants arises from a very high incidence of pseudoreversion, i.e., many different molecular changes can repair the ts phenotype.
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PMID:Phenotypic revertants of temperature-sensitive M protein mutants of vesicular stomatitis virus: sequence analysis and functional characterization. 302 58

The denture surface provides a nidus for the growth of microbial species that act to initiate, aggravate, and maintain clinical disease. The present investigation describes the development of a model system for the testing of the effectiveness of agents against these microbial species inhabiting the denture surface. It was observed through in vitro growth patterns that the model permitted the testing of representative samples of the microbial flora. Poly-L-histidine was observed to inhibit both Candida albicans and C. glabrata from growing from the denture surface into nutrient broth. Scanning electron microscopy of control and treated denture disks revealed that poly-L-histidine had either eliminated most microbial flora from the denture surface or had effected a noticeable distortion of those Candida blastospores still present on the surface. From microbiologic studies, it appeared that poly-L-histidine had inflicted direct but not lethal damage to the still-attached distorted blastospores because the latter were still able to promote growth in agent-free broth. The antifungal effects of poly-L-histidine were observed to be dependent on the concentration of the polypeptide. The data obtained were consistent for all of the patients regardless of their denture stomatitis classification.
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PMID:Model system for the in vitro testing of a synthetic histidine peptide against Candida species grown directly on the denture surface of patients with denture stomatitis. 304 85

Complementary DNA clones to 90% of the Newcastle disease virus (NDV) genome have been produced and mapped. These clones cover the entire HN, F and M genes, most if not all of the L gene and parts of the NP and P genes. The map of overlapping clones gives the gene order 3'-NP-P-M-F-HN-L-5' for NDV, identical to the gene order of Sendai virus, on the assumption that the NP gene of NDV is at the 3' end of the genome as previously suggested by inactivation of NDV transcription by u.v. light. The nucleotide sequence of 453 bases covering the junction between the HN and L genes has been determined. There is nucleotide sequence homology to the consensus polyadenylation and mRNA start sites of Sendai virus and vesicular stomatitis virus. The deduced amino acid sequence of the C terminus of the HN protein of NDV shows homology to the C-terminal amino acid sequences of the HN proteins of simian virus 5 and Sendai virus. An explanation for the presence of HN0, the precursor to HN in some strains of NDV, is suggested by the presence of a long non-coding region at the 3' terminus of the mRNA encoding the HN protein of NDV that could, by mutation, allow synthesis of a larger polypeptide.
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PMID:Molecular cloning of complementary DNA to Newcastle disease virus, and nucleotide sequence analysis of the junction between the genes encoding the haemagglutinin-neuraminidase and the large protein. 375


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