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 nutritional status of 66 part Aborginines was re-examined in 1974--with particular reference to blood levels of haemoglobin and vitamins--after white bread fortified with iron and the vitamins B1 and PP (niacin) had been available for six and half months to the population of Bourke, New South Wales. The results found in 1971 and 1974 are compared. A significant improvement from deficient to acceptable blood levels of vitamins B1 and B6 was found in 44% and 52% of the subjects respectively. This attributed to the comsumption of fortified bread since the levels of the other vitamins had remained either unchanged or worsened. The biochemical improvement in vitamin B6 is attributed to the sparing effect of vitamin PP on vitamin B6 requirement because the conversion of tryptophan to niacin is impaired in vitamin B6 deficiency. Iron deficiency anaemia in children had decreased by 50% but this could have been due to many other factors besides the iron which had been added to the bread. Clinically there was a marked decrease in angular stomatitis and skin xerosis which could be related to the biochemical improvement of the two B-vitamins and a decrease in active trachoma and suppurative otitis media probably due to intensive treatment received since 1971. The results of this study and the extent of biochemical vitamin B1 and B6 deficiency found in other groups, indicate that fortification of bread may be of benefit to the community as a whole.
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PMID:Nutrition in the Australian aborginines--effects of the fortification of white flour. 105 22

The relative importance of type I and type II mechanisms in the photodynamic treatment of red blood cell concentrations (RBCC) to inactivate viruses was studied using aluminum phthalocyanine tetrasulfonate (AlPcS4), visible light and quenching or enhancing agents of reactive forms of oxygen. Treatment of a human RBCC with 10-13 microM AlPcS4 and 25-26 mW/cm2 visible light resulted in the rapid and complete inactivation of added vesicular stomatitis virus (VSV). The addition of mannitol, glycerol, reduced glutathione (GSH), or superoxide dismutase (SOD), known quenching agents of type I mechanisms, had little to no effect on the rate of inactivation of VSV. Significant inhibition of VSV kill was observed on addition of tryptophan or sodium azide, known quenchers of type II mechanisms. Additionally, the rate of VSV kill was enhanced in the presence of D2O. Taken together, these results indicate a predominant role of singlet oxygen in the inactivation of VSV on photodynamic treatment of RBCC. The relative importance of type I and type II mechanisms on cellular toxicity was also evaluated. Little, if any hemoglobin release was observed on treatment of human or rabbit RBCC with 10 microM AlPcS4 and 44 J/cm2 of visible light in the presence or absence of the above mentioned quenchers. The effect of the addition of quenchers on the recovery and circulatory survival of treated, autologous rabbit RBCC, labeled with 51Cr, was also assessed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Importance of type I and type II mechanisms in the photodynamic inactivation of viruses in blood with aluminum phthalocyanine derivatives. 133 14

The phosphoprotein NS of vesicular stomatitis virus which accumulates within the infected cell cytoplasm is phosphorylated at multiple serine and threonine residues (G. M. Clinton and A. S. Huang, Virology 108:510-514, 1981; Hsu et al., J. Virol. 43:104-112, 1982). Using incomplete chemical cleavage at tryptophan residues, we mapped the major phosphorylation sites to the amino-terminal half of the protein. Analysis of phosphate-labeled tryptic peptides suggests that essentially all of the label is within the large trypsin-resistant fragment predicted from the sequence of Gallione et al. (J. Virol. 39:52-529, 1981). A similar result has been obtained for NS protein isolated from the virus particle by C.-H. Hsu and D. W. Kingsbury (J. Biol. Chem., in press). Analysis of phosphodipeptides utilizing the procedures of C. E. Jones and M. O. J. Olson (Int. J. Pept. Protein Res. 16:135-142, 1980) enabled us to detect as many as six distinct phosphate-containing dipeptides. From these studies, together with the known sequence data, we conclude that the major phosphate residues on cytoplasmic NS protein are located in the amino third of the NS molecule and most probably between residues 35 and 106, inclusive. The studies also provide formal chemical proof that NS protein has a structure consistent with a monomer of the sequence of Gallione et al. as modified by J. K. Rose (personal communication). The low electrophoretic mobility of this protein on sodium dodecyl sulfate-polyacrylamide gel electrophoresis is not therefore due to dimerization.
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PMID:Phosphorylation sites on phosphoprotein NS of vesicular stomatitis virus. 298 24

Bacterial plasmids that directed expression of the vesicular stomatitis virus glycoprotein (G-protein) gene under control of the tryptophan operon regulatory region were constructed. A plasmid directing the synthesis of a G-protein-like protein (containing the NH2-terminal segment of seven amino acids encoded by the trpE gene fused to the complete G-protein sequence lacking only its NH2-terminal methionine) could be transformed into trpR+ (repressed) but not into trpR- (derepressed) cells. This result suggested initially that derepressed synthesis of the G-protein-like protein encoded by this plasmid was lethal in Escherichia coli. Deletion of the sequence encoding the large hydrophobic segment near the COOH terminus of G-protein did not overcome this lethality. Lethality of derepressed synthesis was overcome by deletion of the G-protein gene region encoding 10 amino acids in the hydrophobic NH2-terminal domain (signal peptide). Tryptic peptide mapping demonstrated that the G-protein-like protein and some truncated proteins encoded by the plasmid contained G-protein protein sequences. Antisera to vesicular stomatitis virus precipitated the G-protein-like protein, showing that it shares antigenic determinants with the authentic G-protein protein.
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PMID:Conditional expression of the vesicular stomatitis virus glycoprotein gene in Escherichia coli. 627 81

Some isolates of the temperature sensitive mutant tsD1 of complementation group D of vesicular stomatitis virus of New Jersey serotype have a nucleocapsid (N) protein which shows an increased electrophoretic mobility on sodium dodecyl sulfate--polyacrylamide gel electrophoresis (SDS-PAGE) when compared with wild type. Utilizing techniques involving specific chemical cleavage at tryptophan or methionine residues, as well as enzymatic cleavage with carboxypeptidases A and B, we have determined that residues near the carboxyterminus are responsible for the electrophoretic difference of the mutant protein. We have further shown that there are no differences in the tryptic peptides of the mutant compared with the wild type or a non-ts revertant in this region of the protein. We have identified a tryptic peptide located outside the relevant carboxyterminal region which is distinct in mutant and revertant. We conclude that the mutation producing the aberrant electrophoretic mobility of N protein of the tsD1 mutant is a missense point mutation located at least 40 amino acid residues from the carboxyterminus and which interacts with a more proximal carboxyregion so as to influence electrophoretic mobility on SDS-PAGE.
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PMID:Characterization of the electrophoretic mobility mutation in the N protein of the tsD1 mutant of vesicular stomatitis virus New Jersey serotype. 629 85

We have analyzed a soluble form of the glycoprotein (G) obtained from vesicular stomatitis virus (VSV) by treatment of intact virions with cathepsin D. This form lacks the carboxy-terminal and membrane-spanning domains and thus is analogous to the previously described secreted form of G, Gs. The molecular weight of the cathepsin D produced G, G(Cath D), measured by sedimentation equilibrium in the analytical ultracentrifuge is 57 600, indicating that it is a monomer. Intact G protein extracted from virions by octyl beta-D-glucoside also is monomeric, based on sedimentation equilibrium analysis. These results suggest that G may be monomeric in virions. The Stokes radii (Rs) of the two forms of G were obtained from their migration in nondenaturing polyacrylamide gradient gels. The Rs of G(Cath D) in the absence of nonionic detergent was 37 A; in the presence of nonionic detergent, it increased to 55 A. The Rs of detergent-extracted intact G was 63 A in nonionic detergent. From the molecular weight and Rs of G(Cath D), we calculated a sedimentation coefficient of 3.8 S; the value determined by centrifugation in a sucrose gradient was 3.7 S. Viruses such as VSV fuse with cell membranes at low pH [White, J., Matlin, K., & Helenius, A. (1981) J. Cell Biol. 89, 674-679]. We have used the fluorescent probe cis,trans,trans,cis-9,11,13,15-parinaric acid (cis-PnA) to detect a reversible conformational change in G(Cath D) when the protein was exposed to an acidic environment close to pH 5. cis-PnA binds to hydrophobic regions of protein, causing a quenching of the intrinsic tryptophan fluorescence and an increase in the fluorescence of the probe.
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PMID:Physical properties of a soluble form of the glycoprotein of vesicular stomatitis virus at neutral and acidic pH. 666 13

GRP94, the endoplasmic reticulum Hsp90 paralog, binds a diverse array of peptides, a subset of which are suitable for assembly onto nascent MHC class I molecules. At present, the mechanism, site, and regulation of peptide binding to GRP94 are unknown. Using VSV8, the immunodominant peptide epitope of the vesicular stomatitis virus, and native, purified GRP94, we have investigated GRP94-peptide complex formation. The formation of stable GRP94-VSV8 complexes was slow; competition studies demonstrated that peptide binding to GRP94 was specific. VSV8 binding to GRP94 was stimulated 2-fold or 4-fold, respectively, following chemical denaturation/renaturation or transient heat shock. The activation of GRP94-peptide binding occurred coincident with a stable, tertiary conformational change, as identified by tryptophan fluorescence and proteolysis studies. Analysis of GRP94 secondary structure by circular dichroism spectroscopy indicated an identical alpha-helical content for the native, chemically denatured/renatured, and heat-shocked forms of GRP94. Through use of the environment-sensitive fluorophores acrylodan and Nile Red, it was observed that the activation of peptide binding was accompanied by enhanced peptide and solvent accessibility to a hydrophobic binding site(s). Peptide binding to native or activated GRP94 was identical in the presence or absence of ATP or ADP. These results are discussed with respect to a model in which peptide binding to GRP94 occurs within a hydrophobic binding pocket whose accessibility is conformationally regulated in an adenine nucleotide-independent manner.
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PMID:Structural transitions accompanying the activation of peptide binding to the endoplasmic reticulum Hsp90 chaperone GRP94. 954 57

The interaction of a 19 amino acid vesicular stomatitis virus G protein fragment (GTWLNPGFPPQSCGYATVT) with phosphatidylserine-containing model membranes was investigated using solution-phase 1d and 2d 1H NMR spectroscopy and intrinsic tryptophan fluorescence. Results of these studies show that this peptide interacts with model membranes containing negatively charged phospholipids. The interaction is modulated by both ionic and hydrophobic factors and appears to be dependent on the fluidity and lipid packing of the target bilayer. The data further suggest the existence of two isomeric forms of this peptide, which react differentially with model membranes. Upon binding, 2d 1H NOESY and tryptophan fluorescence data indicate penetration of the tryptophan residue into the bilayer. A model is proposed for the interaction of the peptide with model membranes, consistent with the experimental findings.
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PMID:Interactions of a vesicular stomatitis virus G protein fragment with phosphatidylserine: NMR and fluorescence studies. 985

It has previously been shown that phosphorylation of P protein of vesicular stomatitis virus as well as Chandipura (CHP) virus is required for transcription activation and replication switch. The structural nature of this crucial conformational change, however, is largely unknown. We have studied the phosphorylation-associated conformational change in the P protein of Chandipura (CHP) virus using chemical modification, fluorescence, and circular dichroism spectroscopy. Sulfhydryl groups of unphosphorylated CHP-P protein are unreactive to DTNB under nondenaturing conditions. Upon phosphorylation, one sulfhydryl group becomes reactive. We have identified this sulfhydryl group as cysteine 57. The two tryptophan residues (105 and 135) become significantly more buried in the phosphorylated protein. Circular dichroism spectra show significant enhancement in the far-UV region upon phosphorylation. Anisotropy decay of AEDANS-labeled C57 CHP-P protein shows rapid rotation of the probe, suggesting significant mobility of the N-terminal domain in the phosphorylated P protein. The results suggest a global conformational change in the N-terminal domain of the P protein is induced by phosphorylation and yet the phosphorylated N-terminal domain shows significant flexibility.
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PMID:A phosphorylation-induced major structural change in the N-terminal domain of the P protein of Chandipura virus. 1002 94

We have previously reported the isolation of mutant cell lines from the human carcinoma line ME180 that are resistant to the antiproliferative effect of interferon-gamma (IFN-gamma). These cell lines were defective in the induction of indoleamine 2,3-dioxygenase (IDO), a key enzyme of tryptophan catabolism. One of these cell lines, 3B6A, was chosen for further study. This cell line was also defective in the ability of IFN-gamma to protect against vesicular stomatitis virus (VSV) infection. However it maintained a normal antiviral response to IFN-alpha. A promoter-chloramphenicol acetyltransferase (CAT) construct containing the promoter region of IDO, which includes IFN-gamma activation site (GAS), IFN-stimulated response element-1 (ISRE-1), and ISRE-2 regions, was not expressed in 3B6A in the presence of IFN-gamma, indicating that the defect was likely to be in either Stat1 or IFN regulatory factor-1 (IRF-1), transcription factors known to bind to these cis-acting sequences. The induction of other IFN-gamma-inducible genes, such as tryptophanyl-tRNA synthetase (hWRS), was also affected. Electrophoretic mobility shift assays (EMSA) comparing nuclear extracts from parental and mutant cells indicated that Stat1 from the mutant did not bind to GAS sequences. However, Western blot analysis indicated that Stat1 protein was present. This IDO-negative phenotype can be reversed by transfection with a Stat1 expression vector. DNA sequencing of the Stat1 cDNA from wild-type and 3B6A cells indicated that an amino acid change occurred in the Stat1 protein of the mutant at W573, a tryptophan conserved in all known Stat proteins. We hypothesize that a change in this region of the Stat protein affects the response to IFN-gamma but not to IFN-alpha.
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PMID:An indoleamine 2,3-dioxygenase-negative mutant is defective in stat1 DNA binding: differential response to IFN-gamma and IFN-alpha. 1092 4


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