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: UNIPROT:P15586 (glucosamine)
9,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A saline extract (SE) and a phenol/water extract (WL) were prepared from Bacteroides ovatus strain ATCC 8483. A fraction CS was isolated from the culture supernatant. WL was further split by ultracentrifugation into lipopolysaccharide (LPS) and supernatant (L1). Fractions SE, WL, LPS and L1 reacted serologically with homologous antiserum but did not cross-react with antisera against heterologous Bacteroides serotypes. Fraction CS was inactive in haemagglutination, haemagglutination inhibition and immunoelectrophoresis tests. SE, WL, LPS and L1 proved to be serologically heterogeneous. A distinct serological specificity for SE was demonstrated. The serological reactivity in SE and WL was not altered after treatment with proteolytic enzymes yet completely destroyed in WL and partially in SE by sodium metaperiodate. SE, WL, LPS and L1 contained the sugar components rhamnose, fucose, ribose, mannose, galactose, glucose and glucosamine in different molar ratios for each fraction. Galactosamine was found in WL and LPS, uronic acid in WL and L1. Two unidentified aminohexoses were detected in WL, one of which was also detectable in L1 and SE. 2-Keto-3-deoxyaldonic acid was demonstrated in LPS and L1 after strong acid hydrolysis.
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PMID:Immunochemical investigations of antigens isolated from Bacteroides ovatus strain ATCC 8483. 241 81

Hypertonic NaCl administered to rats or mice has been demonstrated to induce in the liver a rapid disaggregation of polyribosomes and inhibition of protein synthesis. This study was concerned with whether hypertonic NaCl would affect nucleocytoplasmic translocation of RNA in the livers of rats. The effect of tube-feeding a hypertonic (10.7%) NaCl solution (321 mg in 3 ml/100 g body wt) for 10 minutes on in vitro release of 14C-orotate-labeled nuclear RNA was assayed. Although the combination of nuclei and cytosols of livers of hypertonic NaCl-treated rats revealed diminished in vitro labeled nuclear RNA release in comparison with hepatic nuclei and cytosols of control (water-treated) rats, each of the two components varied in activity. Even though the overall effect was an inhibitory one, cytosols of livers of hypertonic NaCl-treated rats stimulated in vitro release of labeled nuclear RNA, whereas nuclei of livers of hypertonic NaCl-treated rats revealed diminished in vitro release of labeled nuclear RNA in comparison with cytosols and nuclei of livers of control rats. The stimulatory effect of the hepatic cytosols of the hypertonic NaCl-treated rats was essentially unaffected by pretreatment of the rats with puromycin or cycloheximide, but was abolished by pretreatment of the cytosols in vitro with alpha-mannosidase or beta-galactosidase. Passage of cytosols of control and experimental livers through concanavalin A-agarose columns concentrated the activities of the eluates in stimulating in vitro labeled nuclear RNA release. In vivo 14C-orotate labeling of hepatic nuclear RNA for 30 minutes was increased by hypertonic NaCl treatment in comparison with water treatment of control animals. In vivo 14C-glucosamine incorporation into hepatic proteins of nuclei and nuclear envelopes was increased in hypertonic NaCl-treated rats in comparison with controls. In vitro 3H-tryptophan binding to proteins (trichloracetic acid-precipitable) to cytosols of livers of hypertonic NaCl-treated rats was increased in comparison with binding of controls. The results suggest that the administration of hypertonic NaCl rapidly leads to a change in hepatic cytosol whereby the activity to stimulate in vitro labeled nuclear RNA release is enhanced. This occurs without new protein synthesis, and the effect is probably mediated through a glycoprotein. In contrast, the hepatic nuclei of the rats treated with hypertonic NaCl show a decreased ability to release in vitro labeled nuclear RNA, possibly because of the development of a nuclear lesion.
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PMID:The influence of hypertonic NaCl on nucleocytoplasmic translocation of RNA in the rat liver. 242 14

Two-dimensional gel electrophoresis (2-D) was used to resolve the plasma membrane proteins from cultured human retinal pigment epithelial cells. The cells were metabolically labeled either with [35S]methionine to reveal proteins in general or with [3H]glucosamine or [3H]fucose which are more specific for glycoprotein visualization. The cell surface proteins were also iodinated, using the lactoperoxidase--glucose oxidase technique. These labeled membranes were separate into plasma membrane-enriched fractions by subjecting the water-shocked postnuclear supernatant to a discontinuous sucrose-density gradient. The five resulting membrane fractions were assayed for protein, RNA (microsomes), galactosyltransferase (Golgi membranes), 5'-nucleotidase (plasma membranes), and succinate dehydrogenase (mitochondrial membranes) and were examined by electron microscopy. The plasma membranes were enriched with minimal contamination at the 0.6-0.85 M (F2) and 0.85-1.0 M (F3) sucrose interfaces based on these biochemical and morphological criteria. Examination of 2-D autoradiographic profiles of F2 and F3 showed that approximately 180 proteins or protein subunits had incorporated [35S]methionine. Certain proteins were also labeled by [3H]glucosamine and [3H]fucose, and surface-labeled by iodination. This was especially true of 17 different high-molecular-weight (43-139 X 10(3) MW) very acidic glycoproteins which formed a constellation of spots. These glycoproteins, as well as others, were also seen in the whole-cell acidic glucosamine-labeled 2-D profiles, where about 150 proteins were detected. A total of 39 proteins were catalogued, of which 34 were detectable in the plasma membrane-enriched fractions. The results show that the use of subcellular fractionation, specific precursors, and labeling techniques aids in the detection and characterization of minor proteins in 2-D gels.
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PMID:Isolation and characterization of plasma membrane proteins of cultured human retinal pigment epithelium. 243 67

In vivo and in vitro studies with a water-soluble extract of cotton bracts (CBE) suggest that CBE may be responsible for some of the clinical manifestations of byssinosis. Since chronic bronchitis has been repeatedly documented as a major feature of byssinosis, we studied the effect of CBE on respiratory glycoconjugate (RGC) release from human airways (HAs) in vitro. HAs were incubated with [3H]glucosamine to label RGC molecules. CBE in increasing concentrations was added to radiolabeled HAs, and the release of 3H-RGC, histamine, and other mediators was measured. CBE in concentrations of 1 to 7 mg/ml caused a dose-related increase in RGC, as well as histamine release (RGC, 14% to 45% increase above control; histamine, 12 to 70 ng/ml released concurrently). Additionally, CBE in a dose of 5 mg/ml caused a more than threefold increase in peptidoleukotriene production above baseline. The effect of histamine H1 and H2 (pyrilamine and cimetidine), cyclooxygenase pathway inhibitor (indomethacin), leukotriene (LY 171883 and FPL 55712), and lipoxygenase pathway (BW nordihydroguaiarectic acid) blocking agents on CBE-induced RCG secretion was studied. In addition to histamine-H1 blockers, lipoxygenase inhibitors (nordihydroguaiarectic acid and BW 755C) and leukotriene blockers (FPL 55712 and LY 171883) are also potent inhibitors of CBE-induced RGC secretion. This suggests that CBE may act via the release of several mediators (histamine and leukotrienes), possibly from airway cells, such as mast cells, macrophages, or epithelial cells, to stimulate RGC secretion.
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PMID:The effect of cotton bract extract on respiratory glycoconjugate secretion from human airways in vitro. 247 5

The chemical structure and immunomodulating activities of the cell wall peptidoglycans isolated from Actinobacillus actinomycetemcomitans were investigated. Peptidoglycans were isolated from A. actinomycetemcomitans strains Y4 and ATCC 29522 by boiling in 4% sodium dodecyl sulfate and by digestion with pronase, trypsin and alpha-amylase. Analysis of amino acids and amino sugars of the peptidoglycans revealed that glucosamine, muramic acid, D-glutamic acid, D-alanine, and meso-2, 6-diaminopimelic acid (A2pm) were the principal components. Serine and glycine were not found. Dinitrophenylation method revealed that about half of A2pm residue had a free aminogroup, and analysis by hydrazinolysis showed that a small part of alanine and A2pm located at the C-terminal. The above results indicate that one of the amino groups of A2pm residue at one strand of the stem peptide subunit crosslinked to the carboxyl group of alanine of the neighboring strand. It was thus revealed that the peptidoglycans of A. actinomycetemcomitans belonged to the Al gamma type of the classification by Schleifer and Kandler. Peptidoglycans isolated from A. actinomycetemcmitans strain Y4 and ATCC 29522 were found to be definitely adjuvant-active in induction of delayed type hypersensitivity against ovalbumin when administered to guinea pigs as water-in oil emulsion and stimulation of increase serum antibody levels was found in both peptidoglycans. Regarding mitogenicity on splenocytes of BALB/c and BALB/c nu/nu mice, peptidoglycans from two strains of A. actinomycetemcomitans were markedly enhanced the uptake [3H] thymidine in dose of 10 micrograms/10(5) cells, however thymocytes were not reactive. Stimulation effects on peritoneal macrophages from a guinea pig to incorporation of 14C-glucosamin were not exhibited on addition of 100 micrograms of both peptidoglycans. These findings indicate that peptidoglycan of A. actinomycetemcomitans might eventually be responsible for destruction of periodontal tissue by host mediated activities.
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PMID:[Chemical structure and immunomodulating activities of peptidoglycan from Actinobacillus actinomycetemcomitans]. 248 65

Isolated intact rat liver Golgi vesicles utilize [acetyl-3H]coenzyme A to add 3H-O-acetyl esters to sialic acids of internally facing endogenous glycoproteins. During this reaction, [3H]acetate also accumulates in the vesicles, even though the vesicles are impermeant to free acetate. On the other hand, entry of intact AcCoA into the lumen of the vesicles could not be demonstrated, and permeabilization of the vesicles did not alter the reaction substantially (Diaz, S., Higa, H. H., Hayes, B. K., and Varki, A. (1989) J. Biol. Chem. 264, 19416-19426). When vesicles prelabeled with [acetyl-3H] coenzyme A are permeabilized with saponin, we can demonstrate a [3H]acetyl intermediate in the membrane that can transfer label to the 7- and 9-positions of exogenously added free N-acetylneuraminic acid but not to glucuronic acid or CMP-N-acetylneuraminic acid. This labeled acetyl intermediate represents a significant portion of the radioactivity incorporated into the membranes during the initial incubation and cannot be accounted for by nonspecifically "trapped" acetyl-CoA in the permeabilized vesicles. There was no evidence for involvement of acetylcarnitine or acetyl phosphate as an intermediate. The overall acetylation reaction appears to involve two steps. The first step (utilization of exogenous acetyl-CoA to form the acetyl intermediate) is inhibited by coenzyme A-SH (apparent Ki = 24-29 microM), whereas the second (transfer from the acetyl intermediate to sialic acid) is not affected by millimolar concentrations of the nucleotide. Studies with amino acid-modifying reagents indicate that 1 or more histidine residues are involved in the first step of the acetylation reaction. Diethylpyrocarbonate (which can react with both nonsubstituted and singly acetylated histidine residues) also blocks the second reaction, indicating that the acetyl intermediate on both sides of the membrane involves histidine residue(s). Taken together with data presented in the preceding paper, these results indicate that the acetylation of sialic acids in Golgi vesicles may occur by a transmembrane reaction, similar to that described for the acetylation of glucosamine in lysosomes (Bame, K. J., and Rome, L. H. (1985) J. Biol. Chem. 260, 11293-11299). However, several features of this Golgi reaction distinguish it from the lysosomal one, including the nature and kinetics of the reaction and the additional involvement of an essential lysine residue. The accumulation of free acetate in the lumen of the vesicles during the reaction may occur by abortive acetylation (viz. transfer of label from the acetyl intermediate to water). It is not clear if this is an artifact that occurs only in the in vitro reaction.
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PMID:O-acetylation and de-O-acetylation of sialic acids. O-acetylation of sialic acids in the rat liver Golgi apparatus involves an acetyl intermediate and essential histidine and lysine residues--a transmembrane reaction? 250 77

A polysaccharide Ag (PS) was isolated from the phenol-water extract of Bacteroides gingivalis strain A7A1-28 and separated from LPS by Sephacryl S-400 HR chromatography. The PS was composed of glucose, glucosamine, galactosamine, and galactosaminuronic acid, while the LPS contained rhamnose, mannose, galactose, glucose, glucosamine, galactosamine, phosphate, and lipid, but not galactosaminuronic acid. The PS and LPS were immunochemically distinct by immunoelectrophoresis in agarose with homologous rabbit antiserum. The phenol-water extract from strain A7A1-28 was immunoreactive by immunoelectrophoresis against antisera to three additional strains of B. gingivalis, however, the PS was only reactive with homologous serum. Immunochemical characterization of decarboxylated and deacetylated PS derivatives suggest that the acetylation of the amino sugars, but not the presence of the carboxylate residue on galactosaminuronic acid contributes to major immunodeterminant expression.
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PMID:Characterization of a polysaccharide antigen from Bacteroides gingivalis. 250 63

A water-soluble polysaccharide-peptidoglycan complex (PSPG) was prepared from heat-killed Lactobacillus casei by digesting the bacteria with N-acetylmuramidase. The molecular weight of PSPG was over 30,000, and the polysaccharide portion of PSPG, its main component was composed of rhamnose, glucose, galactose, glucosamine and galactosamine. Mice pretreated intraperitoneally with PSPG survived after a lethal infection with Listeria monocytogenes or Pseudomonas aeruginosa. The growth of infecting bacteria (L. monocytogenes, P. aeruginosa, Salmonella typhimurium, Escherichia coli) in both the peritoneal cavity and the liver was inhibited markedly in the mice that had been treated with PSPG. It was suggested that macrophages may be the main effector for the anti-infectious effect of PSPG since treatment of mice with carrageenan, a selective macrophage blocker, markedly reduced the anti-infectious effect of PSPG.
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PMID:Augmentation of resistance of mice to bacterial infection by a polysaccharide-peptidoglycan complex (PSPG) extracted from Lactobacillus casei. 251 75

Heparin and heparan sulfate can be cleaved selectively at their N-sulfated glucosamine residues by direct treatment with nitrous acid at pH 1.5. These polymers can also be cleaved selectively at their N-acetylated glucosamine residues by first N-deacetylating with hydrazine and then treating the products with nitrous acid at pH 4. These procedures have been combined and optimized for the conversion of these glycosaminoglycan chains into their disaccharide units. A modified hydrazinolysis procedure in which the glycosaminoglycans were heated with hydrazine:water (70:30) containing 1% hydrazine sulfate gave rapid rates of N-deacetylation and minimal conversion of the uronic acid residues to their hydrazide derivatives. Under these conditions, N-deacetylation was complete in 4 h and the beta-eliminative cleavage of the polymer chains that occurs during hydrazinolysis (P. N. Shaklee and H. E. Conrad (1984) Biochem. J. 217, 187-197) was eliminated. Treatment of the N-deacetylated polymer with nitrous acid at pH 3 for 15 h at 25 degrees C then gave simultaneous cleavage at the N-unsubstituted glucosamine residues and the N-sulfated glucosamine residues. These deamination conditions minimized, but did not eliminate, the side reaction in which nitrous acid-reactive glucosamine residues undergo ring contraction without glucosaminide bond cleavage. Thus, the disaccharides were obtained in a yield of 90% of those originally present in the glycosaminoglycan chains. Since the ring contraction side reaction occurs randomly at the diazotized glucosamine residues, the disaccharides formed in the pH 3 nitrous acid reaction were recovered in proportions equal to those in the original glycosaminoglycan chain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The disaccharide composition of heparins and heparan sulfates. 252 75

The oligosaccharide components of the glycosylphosphatidylinositol anchors of Trypanosoma brucei variant surface glycoproteins have been prepared and purified by treatment with hydrolytic enzymes and solvent extraction procedures followed by HPLC purification using a specific oligosaccharide binding matrix (Glyco-Pak N, by Waters). Three oligosaccharide peaks (peaks I, II and III) were resolved by a single isocratic HPLC step (70% acetonitrile in water). The material from these peaks was hydrolyzed in acid and analyzed by GC/MS. GC/MS analysis of the material obtained from each peak demonstrated the presence of inositol, glucosamine, and mannose in a 1:1:3 ratio. A variable number of galactose residues were detected in each peak. The galactose:inositol ratios of the purified components were 1:1, 2:1, and 3:1 for peaks I, II and III, respectively, suggesting that the separation obtained depends primarily on the number of sugar residues present in each fraction.
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PMID:A simple procedure for the preparation and purification of the oligosaccharide components of the glycosylphosphatidylinositol anchor of membrane proteins. 253 Sep 16


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