UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gardnerella vaginalis has a very thin cell wall with a characteristic gram-negative staining pattern and an apparent lamellar structure when viewed at an oblique angle by electronmicroscopy. Examination at right angles to the cell-wall plane and by freeze-etching showed absence of an outer membrane or any other lamellar structure. Cell-wall extracts made by methods specific for lipopolysaccharide (LPS) gave negative reactions by silver staining and for endotoxin in the limulus amoebocyte lysate assay. 2-Keto-3-deoxy-D-manno-2-octonoic acid (KDO), heptose and hydroxy fatty acids specific for LPS were not detected in the extracts. G. vaginalis cell walls are unequivocally gram-positive in their ultrastructural characteristics and chemical composition.
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PMID:Gardnerella vaginalis has a gram-positive cell-wall ultrastructure and lacks classical cell-wall lipopolysaccharide. 278 5

Twenty-nine murine monoclonal antibodies (MAbs) were prepared against antigenic determinants in the core and lipid A regions of Escherichia coli and Salmonella minnesota lipopolysaccharide (LPS). At least eight distinct MAb specificities were identified. Epitopes recognized by MAbs bearing these specificities were localized in the hexose, heptose, and 2-keto-3-deoxy-D-manno-octulosonic acid regions of the core oligosaccharide and on lipid A. Two groups of MAbs exhibited multispecificity for similar but distinct core- and lipid A-related epitopes. Some core-reactive MAbs cross-reacted with corresponding E. coli and Salmonella rough mutant chemotypes; others were specific for E. coli J5 LPS. Lipid A-specific MAbs reacted with free lipid A from diverse sources. Few MAbs reacted with smooth LPS. Antibody cross-reactivity was restricted by inter- and intraspecies differences in covalent core structure and by epitope concealment by overlying O-side chain and core sugars. The putative cross-reactive and antiendotoxic properties of MAbs specific for the core-lipid A complex may be limited by the inability of such MAbs to recognize determinants on "native" LPS.
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PMID:Specificity and cross-reactivity of monoclonal antibodies reactive with the core and lipid A regions of bacterial lipopolysaccharide. 291 51

The packing of lipopolysaccharide aggregates from rough strains of Escherichia coli was examined at different pH values. Lipopolysaccharide head-group motion, measured with an electron spin resonance probe, was found to be dependent on pH, and indicated the existence of multiple ionizable groups. Lipopolysaccharide from a rough (Ra) and a heptose-less (Re) mutant were more rigid at pH 5 than at pH 10.5. In addition, head-group mobility of the magnesium salt of Ra lipopolysaccharide was substantially less than that of the sodium salt at pH 7.0, whereas at high pH (pH 12) the two salts were equally fluid. Changes in head-group packing were also reflected in pH-dependent changes in the phase transition measured with differential scanning calorimetry. The enthalpy of the transition, delta Ht, for the sodium salt of Re lipopolysaccharide was greatest at pH 7.5 and approached zero in both the acidic and the basic pH ranges. We propose that fixed charges in the core and lipid A regions significantly influence lipopolysaccharide head-group motion and the lipopolysaccharide aggregation state. Furthermore, ionic bridging among phosphate groups dramatically rigidifies head group interactions in the neutral to acidic pH ranges.
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PMID:A pH titration study on the ionic bridging within lipopolysaccharide aggregates. 300 Apr 45

Enzymatic deacylation of the lipopolysaccharide isolated from a Salmonella Rd mutant by a cell-free preparation from Acanthamoeba castellanii has been studied. The degradation was found to be dependent on the presence of a surface-active component (Triton X-100) in the reaction mixture. The lipid A part of the lipopolysaccharide was the primary target of the enzymes, which cleaved with high efficiency the ester-bound long-chain nonhydroxylated and 3-hydroxylated acyl residues, i.e. lauric, myristic, palmitic and 3-hydroxymyristic acid. The cell-free preparation also exhibited amidase activity cleaving about 50% of the amide-bound 3-hydroxymyristic acid residues. In addition the extract proved to possess phosphatase activity liberating ester-bound and glycosidically bound phosphate groups of lipid A. On the other hand, the glucosaminyl-beta 1,6-glucosamine disaccharide was not degraded and remained bound to the oligosaccharide part (heptose/3-deoxyoctulosonic acid) of the lipopolysaccharide.
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PMID:In vitro deacylation of lipopolysaccharide of Salmonella minnesota by Acanthamoeba castellanii enzymes. 300 30

Serospecific antigens isolated by EDTA extraction from four serogroups of Legionella pneumophila were analyzed for their chemical composition, molecular heterogeneity by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and immunological properties. The antigens were shown to be lipopolysaccharides and to differ from the lipopolysaccharides of other gram-negative bacteria. The serospecific antigens contained rhamnose, mannose, glucosamine, and two unidentified sugars together with 2-keto-3-deoxyoctonate, phosphate, and fatty acids. The fatty acid composition was predominantly branched-chain acids with smaller amounts of 3-hydroxymyristic acid. The antigens contain periodate-sensitive groups; mannosyl residues were completely cleaved by periodate oxidation. Hydrolysis of the total lipopolysaccharide by acetic acid resulted in the separation of a lipid A-like material that cross-reacted with the antiserum to lipid A from Salmonella minnesota but did not comigrate with it on sodium dodecyl sulfate gels. None of the four antigens contained heptose. All of the antigen preparations showed endotoxicity when tested by the Limulus amebocyte lysate assay. The results of this study indicate that the serogroup-specific antigens of L. pneumophila are lipopolysaccharides containing an unusual lipid A and core structure and different from those of other gram-negative bacteria.
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PMID:Serospecific antigens of Legionella pneumophila. 301 18

The core structure of Citrobacter PCM 1487 lipopolysaccharide has been established using methylation analysis/mass spectrometry, chemical degradations and one- and two-dimensional 1H-NMR spectroscopy at 500 MHz. 1H-NMR assignments are given for all sugar components of the core oligosaccharide. In the formula shown below, the alternative locations of branch terminal heptose (LDHep) and diphosphorylethanolamine (PPEtN) residues are marked by dashed lines; dOclA stands for 3-deoxy-D-manno-octulosonic acid. (Formula: see text). The sample of the core oligosaccharide showed some microheterogeneity due to a slightly incomplete substitution by terminal N-acetylgalactosamine and a partial splitting of diphosphorylethanolamine residues.
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PMID:Core region of Citrobacter lipopolysaccharide from strain PCM 1487. Structure elucidation by two-dimensional 1H-NMR spectroscopy at 500 MHz and methylation analysis/mass spectrometry. 302 76

Analyses of chemical composition in whole cells of Rickettsia tsutsugamushi were performed and compared with those of the other rickettsiae and gram-negative bacteria. The results indicated that R. tsutsugamushi does not contain detectable amounts of 3-deoxy-D-mannooctulosonic acid, heptose, muramic acid, or glucosamine (less than 2, less than 2, less than 3, and less than 3 nmol/mg, respectively). The microorganism was found to contain four kinds of fatty acids (16:0, 18:0, 18:1, and 18:2), but not hydroxy fatty acids. Furthermore, in analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by silver or Coomassie blue staining, lipopolysaccharide bands were not detected in preparations treated with proteinase K. It is concluded that R. tsutsugamushi has little or no peptidoglycan or lipopolysaccharide.
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PMID:Deficiency of peptidoglycan and lipopolysaccharide components in Rickettsia tsutsugamushi. 311 50

The chemical components of lipopolysaccharide (LPS) from the fish pathogen Edwardsiella ictaluri (Ed. ictaluri) were analyzed by SDS-PAGE, gas chromatography, and spectrophotometry, and compared with those of Salmonella typhimurium and Escherichia coli 0111:B4. Only four to five low molecular weight species of LPS from Ed. ictaluri were detected by silver staining after separation by polyacrylamide gel electrophoresis. The low molecular weight species, as well as a low sugar content, indicate that the LPS from Ed. ictaluri was of the rough type, compared with that of S. typhimurium and E. coli which were both of the smooth type LPS. Quantitatively, mannose was not a major sugar component in Ed. ictaluri, unlike S. typhimurium. Palmitic, palmitoleic, and cis-9,10-methylene-hexadecanoic acids were predominant fatty acids among the total cellular lipids of Ed. ictaluri. C14 fatty acids comprised 78% of the total in the LPS of this bacterium, with beta-hydroxy-myristate representing 55%. The results of this study suggest that the lipid A segment of the LPS molecule of Ed. ictaluri is similar to S. typhimurium and E. coli, at least with respect to fatty acid content; however, the core polysaccharide of E. ictaluri differs in that it has twice the heptose content.
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PMID:Chemical characterization of lipopolysaccharide from Edwardsiella ictaluri, a fish pathogen. 320 99

A lipopolysaccharide was isolated from Pseudomonas aurantiaca IMB 31 by extraction with aqueous phenol and purified by ultracentrifugation. The lipopolysaccharide was confined to the phenol phase. Fucosamine (2-amino-2,6-dideoxygalactose) (36%) and bacillosamine (2,4-diamino-3,4,6-trideoxyglucose) (23%) were identified as hypothetic components of the O-chain in the carbohydrate moiety of the macromolecule using the techniques of paper chromatography, gas-liquid chromatography and ion-exchange chromatography on an amino acid analyser. Rhamnose, glucose, galactose, glucosamine and galactosamine were detected as hypothetical components of the core in the lipopolysaccharide composition, as well as 2-keto-3-deoxyoctonic acid, heptose, alpha-alanine and phosphorus, usual components of the core in Pseudomonas. The following predominant fatty acids were identified in the composition of lipid A using the techniques of gas-liquid chromatography with standard compounds and gas-liquid mass spectrometry: 3-OH C10:0 (14.4%), C12:0 (30.5%), 2-OH C12:0 (14.9%), 3-OH C12:0 (17.4%), C16:0 (9.9%). The serological relationship between P. aurantiaca strains was studied, and their phylogenetic relationship with P. fluorescens is discussed.
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PMID:[Immunochemical characteristics of a lipopolysaccharide from Pseudomonas aurantiaca]. 324 96

To investigate the potential pathogenic mechanisms of the oral periodontopathogen Wolinella recta ATCC 33238, we have isolated its lipopolysaccharide (LPS) and determined the chemical composition and selected in vitro biological activities of the molecule. Sodium desoxycholate-polyacrylamide gel electrophoresis revealed the W. recta LPS to be an atypical smooth LPS with short O-antigenic side chains. Chemically the LPS consisted of 47.2% lipid A, 19.6% polysaccharide, 9.0% heptose, 8.5% hexosamine, 3.2% phosphate, and 0.6% 2-keto-3-deoxyoctanoate. The major fatty acids were hexadecanoic acid (25.0%), 3-OH tetradecanoic acid (23.8%), tetradecanoic acid (15.4%), 3-OH hexadecanoic acid (11.6%), and octadecenoic acid (10.9%). Rhamnose constituted 87.8% of the carbohydrates generally associated with the O antigen, with smaller amounts of glucose (5.5%), mannose (4.9%), and an unidentified sugar (1.9%). CD-1 and C3H/HeN macrophages (M phi) exposed to 1 microgram of W. recta LPS per ml released 6.0 and 10.5 ng of prostaglandin E per ml of supernatant, representing 625% and 1,306% of prostaglandin E release by the control (without LPS). Maximum prostaglandin E release occurred in CD-1 M phi exposed to 100 micrograms of LPS per ml and was equivalent to 1,542% of release by the control. Interleukin-1 (IL-1) activities in CD-1 and C3H/HeN M phi exposed to 1 micrograms of LPS per ml were 257% and 1,941% of activities in the control, respectively. Maximum IL-1 release in CD-1 M phi occurred in response to 50 micrograms of LPS per ml and represented a 927% increase over release in the control, while 100 micrograms LPS per ml stimulated maximum IL-1 release in C3H/HeN M phi that was greater than 5,000% of release by the control.
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PMID:Chemical and biological characterization of the lipopolysaccharide of the oral pathogen Wolinella recta ATCC 33238. 326 Aug 93

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