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

Vibrio mimicus strains W-26768 (stool isolate) and N-1301 (environmental isolate) and Vibrio fluvialis strains AA-18239 (stool isolate) and M-940 (environmental isolate) were studied for virulence properties and lipopolysaccharide composition. All four strains were hydrophobic, produced cytotoxin, adhered to HeLa cells and showed mannose-sensitive agglutination of guinea pig erythrocyte. The strains were negative for enterotoxin production and were mostly susceptible to the common antibiotics. The environmental and clinical isolates of both species were antigenically unrelated to each other. Lipopolysaccharide antigen analysis showed that O-antigen polysaccharides of two strains of V. fluvialis and two strains of V. mimicus differed with respect to the sugar components. Only LPS from V. mimicus W-26768 showed the presence of an unusual sugar, 3,6-dideoxy-3-acetamido-hexose. The sugar compositions of these V. fluvialis and V. mimicus strains differed from those of previously reported Japanese isolates. These differences probably reflect differences in the serogroup of strains.
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PMID:Lipopolysaccharide composition and virulence properties of clinical and environmental strains of Vibrio fluvialis and Vibrio mimicus. 138 75

The lipopolysaccharide (LPS) of the outer membrane of Caulobacter crescentus was purified and analyzed. Two distinct strains of the species, NA 1000 and CB2A, were examined; despite differences in other membrane-related polysaccharides, the two gave similar LPS composition profiles. The LPS was the equivalent of the rough LPS described for other bacteria in that it lacked the ladder of polysaccharide-containing species that results from addition of variable amounts of a repeated sequence of sugars, as detected by gel electrophoresis in smooth LPS strains. The purified LPS contained two definable regions: (i) an oligosaccharide region, consisting of an inner core of three residues of 2-keto-3-deoxyoctonate, two residues of alpha-L-glycero-D-mannoheptose, and one alpha-D-glycero-D-mannoheptose unit and an outer core region containing one residue each of alpha-D-mannose, alpha-D-galactose, and alpha-D-glucose, with the glucose likely phosphorylated and (ii) a region equivalent to the lipid A region of the archetype, consisting primarily of an esterified fatty acid, 3-OH-dodecanoate. The lipid A-like region was resistant to conclusive analysis; in particular, although a variety of analytical methods were used, no amino sugars were detected, as is found in the lipid A of the LPS of most bacteria.
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PMID:Identification, isolation, and structural studies of the outer membrane lipopolysaccharide of Caulobacter crescentus. 144 31

Outer membrane fractions (OMs) of nine Campylobacter (C.) jejuni and two C. coli strains belonging to different serovars, from human and various animal origins, were extracted by treatment with sodium N-lauryl sarcosinate. Using n-octyl-beta-D-glucopyranoside a 42-kDa protein and a flagella-enriched fraction were obtained. The capacity of the crude bacterial OM preparations, the purified 42-kDa protein and the flagella to bind to membranes of the human embryonic intestinal cell line INT 407 was tested by an enzyme-linked immunosorbent assay. The crude OM and the 42-kDa-enriched fraction were found to bind very well to the cell membranes, whereas the flagella preparation showed only a weak binding. Using monoclonal antibodies (mAbs) with HS 2-lipopolysaccharide (LPS) specificity, binding of crude HS 2 strain OM preparations to cell membranes was detected in a significant range, whereas with flagellin-specific mAbs binding of OMs and flagella to cell membranes was only detected to a very low extent. Binding of OMs to cell membranes was inhibited by preincubation of OMs with serovar-specific mouse hyperimmune serum, whereas on preincubation with mAbs directed against LPS or flagella binding was practically not inhibited. OMs extracted after pretreatment of the bacteria with proteinase K showed an altered SDS-PAGE pattern especially for the 42-kDa protein subunit and and their capacity to bind to cell membranes was significantly reduced. The binding was also reduced by preincubation of the OMs with L-fucose or D-mannose.
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PMID:In vitro binding of Campylobacter jejuni/coli outer membrane preparations to INT 407 cell membranes. 154 70

Mouse macrophages activated by interferon-gamma kill intracellular Leishmania by a process that depends on the generation of L-arginine-derived nitrogen oxidation products. Interferon-induced intracellular killing can be mimicked by exposure of macrophages to the Ca2+ ionophore A23187 in the presence of lipopolysaccharide. The mechanisms of this effect were therefore investigated. Destruction of the parasite was accompanied by accumulation of nitrite in the macrophage culture fluids. Leishmanicidal activity and nitrite production in cultures stimulated with ionophore A23187 and lipopolysaccharide were abrogated when cells were activated in medium containing arginase or the L-arginine analogues L-canavanine, guanidine or NG-monomethyl-L-arginine. L-Arginine was required during the lipopolysaccharide-induced triggering phase only. Indeed, macrophage priming with ionophore A23187 in L-arginine-depleted medium led to full microbicidal activity and nitrite generation provided that L-arginine was present during subsequent triggering by lipopolysaccharide. Addition of NG-monomethyl-L-arginine to ionophore-activated macrophages increased O2- production on phorbol myristate stimulation, while inhibiting glucose oxidation through the hexose monophosphate shunt pathway. Leishmanicidal activity and nitrite production were also inhibited when ionophore-treated cultures were incubated with excess iron, implying a role for iron as a defence mechanism against the toxicity of nitrogen derivatives. These results indicate that the ionophore-induced leishmanicidal activity occurs through a process similar to that evoked by interferon-gamma, i.e. the production of L-arginine-derived nitrogen oxidation products.
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PMID:Macrophage activation for intracellular killing as induced by a Ca2+ ionophore. Dependence on L-arginine-derived nitrogen oxidation products. 159 22

In the course of developing a live vaccine, we generated three murine monoclonal antibodies (MAb) specific for Shigella sonnei. The specificities of these MAb were determined by enzyme-linked immunosorbent assay and immunoblot analyses with whole cells or purified lipopolysaccharides (LPSs) as antigens. Two of them are specific for the Shigella serotype D O-polysaccharide determinant, whereas one specifically binds to the core hexose region of R1-type LPSs. With these MAb, it was possible to analyze clinical isolates and a hybrid Salmonella typhi strain for their expression of the corresponding LPS moieties. In addition to their use in the screening of candidate vaccine strains, the new MAb provide a powerful tool for epidemiological and phylogenetic studies of natural enterobacterial populations.
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PMID:Characterization of the Shigella serotype D (S. sonnei) O polysaccharide and the enterobacterial R1 lipopolysaccharide core by use of mouse monoclonal antibodies. 161 42

The binding kinetics of radiolabeled Salmonella california 1989/O (mannose-sensitive hemagglutinin-positive [MSHA+]) to immobilized mucus or enterocytes isolated from broiler ceca and inhibition of binding by D-mannose and sodium metaperiodate were characteristic of adherence of mannose-sensitive type 1 fimbriae of bacteria to eukaryotic mannose-containing receptors. Binding by radiolabeled strains 1989/O (in the presence of D-mannose) and S. typhimurium S 7471 N (MSHA-, non-fimbriated) indicated non-specific binding that was characterized by less binding to enterocytes and mucus and lack of inhibition by carbohydrates or prior treatment with sodium metaperiodate. Inhibition of non-specific binding to enterocytes by pretreatment with various enzymes or by the presence of tetramethylurea or p-nitrophenol (known to disrupt hydrophobic interactions) indicate involvement of multiple sites and hydrophobic bonding. Strain-specific outer-membrane preparations inhibited non-specific binding to a greater extent than did lipopolysaccharide, Escherichia coli outer-membrane preparations, or bovine serum albumin.
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PMID:Binding of Salmonella strains to immobilized intestinal mucosal preparations from broiler chickens. 162 2

Highly purified lipopolysaccharide (LPS) preparation obtained from Coxiella burnetii strain Nine Mile in phase I was used to determine the structure and monosaccharide composition of the polysaccharide component. The procedure included sodium dodecyl sulphate-polyacrylamide gel electrophoresis followed by silver staining and gel chromatographic fractionation of acetic acid-hydrolyzed LPS. Five fractions (A-E) were analysed by GLC-mass spectrometry. D-Mannose and D-glycero-D-mannoheptose were present in an appreciable amount in all polysaccharide fractions (A-D), whereas the virenose and dihydrohydroxystreptose contents varied. The highest content of both rhamnose and ribose was found in the low-molecular weight polysaccharide fraction D. The former sugar is being reported for the first time to be a LPS constituent. D-Xylose and D-glucose content varied considerably in the individual fractions and was the highest in fraction A. Glucosamine and galactosaminuronic acid were present in all polysaccharide fractions and, surprisingly, L-glycero-D-mannoheptose was also found, but its presence was limited within the certain degree of polymerisation of the polysaccharide chains. Mild acid hydrolysis of LPS resulted in a partial release of dihydrohydroxystreptose and virenose residues, which were collected and identified in fraction E. The data presented indicate a strong microheterogenity within the individual polysaccharide chains with respect to their sugar composition, size, and shape. Thus, the chemical structure of Coxiella LPS appears to represent a significant departure from the structures described for enteric LPSs.
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PMID:Evidence for the structural heterogeneity of the polysaccharide component of Coxiella burnetii strain Nine Mile lipopolysaccharide. 168 36

Four murine monoclonal antibodies reactive with distinctive regions of the hexose core domain of Salmonella lipopolysaccharide (LPS) were generated and their epitope specificities were delineated. MAST 56 (IgG1) and MAST 50 (IgG3) antibodies elicited by immunizations with Salmonella typhimurium Rb1 and Rb2 mutants, reacted selectively in enzyme immunoassay with the LPS from rough mutants. In contrast, MATy 1 (IgM) and MATy 2 (IgG2b) antibodies raised by an attenuated Salmonella typhi 620 Ty strain were reactive with LPS from both smooth and rough Salmonellae. Immunoblotting analysis showed that MATy 1 distinguished only the bottom bands (naked LPS core) among the heterogeneous LPS populations, whereas MATy 2 gave a ladder pattern (reactive with both naked and O-chain-substituted LPS cores). Differential binding specificities of MATy 1 and MATy 2 antibodies to the naked and capped LPS cores were further analyzed utilizing S. typhimurium polysaccharide fractions with different O-chain:core ratios which were obtained after separation by Sephacryl S-200 chromatography. Steric effects on the antibody reactivity by the bulky O-polysaccharide chain were detected. The use of chemically defined native and synthetic saccharides as inhibitors, in combination with the conformation of the Salmonella core oligosaccharide, permitted the definition of antigenic determinants carried in the core domain recognized by each antibody: (i) the branches I and VIII are essential for MATy 1 recognition, (ii) the backbone III-IV-V for MATy 2, (iii) the backbone II-III-IV-V for MAST 56, and (iv) the backbone plus the branch III-IV-V-VIII for MAST 50. (formula; see text)
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PMID:Epitope mapping of four monoclonal antibodies recognizing the hexose core domain of Salmonella lipopolysaccharide. 172 Jul 77

The antigenic O-polysaccharide of the lipopolysaccharide produced by Salmonella virginia (O:8), analyzed by methylation, partial acid hydrolysis, and one- and two-dimensional nuclear magnetic resonance methods, was found to be a polymer of a repeating pentasaccharide unit composed of D-mannose, D-galactose, L-rhamnose, D-abequose, and O-acetyl (2:1:1:1:1.3) and having the following structure: [formula; see text] The disaccharide structure alpha-D-Abep-(1----3)-L-Rhap was identified as the Salmonella O:8 antigenic factor epitope, since the removal of alpha-D-Abep residues from the O-polysaccharide left a residual tetrasaccharide repeating unit backbone that did not show reaction with Salmonella type O:8 factor antiserum.
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PMID:Characterisation of the Salmonella O:8 antigen in the O-chain of the lipopolysaccharide produced by Salmonella virginia O:8. 172 62

The rfa locus of Escherichia coli K-12 includes a block of about 10 closely spaced genes transcribed in the same direction which are involved in synthesis and modification of the hexose region of the lipopolysaccharide core. We have sequenced the first three genes in this block. The function of the first of these genes is unknown, but we have designated it rfaQ on the basis of its location and similarity to other rfa genes. Complementation of Salmonella typhimurium rfa mutants with E. coli rfa restriction fragments indicated that the second and third genes in the block were rfaG and rfaP. The deduced sizes of the RfaQ, RfaG, and RfaP proteins are 36,298, 42,284, and 30,872 Da, respectively, and the proteins are basic and lack extensive hydrophobic domains. RfaQ shares regions of homology with proteins RfaC and RfaF, which are involved in synthesis of the heptose region of the core. Proteins RfaB, RfaG, and RfaK share a region of homology, which suggests that they belong to a second family of Rfa proteins which are thought to be hexose transferases.
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PMID:Identification and sequences of the lipopolysaccharide core biosynthetic genes rfaQ, rfaP, and rfaG of Escherichia coli K-12. 173 25

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