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)

The O-haptens of the major fraction (f5A) of B. abortus (Strains 2308 and 19) membrane bound smooth lipopolysaccharide (sLPS) were prepared by hydrolysis of f5A native sLPS in 1% acetic acid at 100 degrees C for 2 h. After hydrolysis, O-haptens were separated from Lipid A-protein complex by centrifugation, and from small fragments by ultrafiltration of molecular weight cut-off (MWCO) 1.0 X 10(3). These carbohydrate haptens were identified by precipitin-inhibition assay and further fractionated by both membrane filtration and dialysis. The size distributions of carbohydrate haptens of endotoxins (f5A) ranged from oligosaccharides up to polysacchandes of 1.0 X 10(4) MWCO. Three major fractions of MWCO 8.0-10.0 X 10(3), 3.5-5.0 X 10(3) and less than 1.0 X 10(3) from both strains 2308 and 19 contained more than 85% of the total immunoactive materials. These fractions of haptens were subjected to composition, proton and 13C NMR analysis and were found to be a homopolymer of alpha 1----2 linked, 4,5-dideoxy-4-formamido-D-mannose (N-formylperosamine), which is identical to O-haptens of B. abortus strain 119.3 and Yersinia enterocolitica serotype 0:9 and similar to Vibrio cholerae 569B (INABA). Fractions of these haptens exhibited similar inhibitory reactivities in a precipitin-inhibition assay as expressed as mumoles of monosaccharide of anhydro-N-formyl perosamine. They were about 480 times as active as Me alpha----DMan or DMan.
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PMID:Structural and immunochemical characterization of the O-haptens of Brucella abortus lipopolysaccharides from strains 19 and 2308. 311 17

Female B6C3F1 mice were exposed to graded doses of nickel sulfate to determine a threshold response for myelotoxicity and immunotoxicity, and to identify which of the populations of lymphoreticular cells were most sensitive to the toxic effects of nickel. Animals were given free access to the chemical in the drinking water at 0, 1, 5, or 10 g/l for 180 d. Water consumption, blood and tissue nickel concentrations, body and organ weights, histopathology, immune responses, bone marrow cellularity and proliferation, and cellular enzyme activities were evaluated. There was no mortality. Mice in the 5-g/l and 10-g/l dose groups drank less water than controls; the responses measured in the 10-g/l group may have been due to a combination of dehydration and chemical toxicity. Decreases in body and organ weights were confined to mice in the 10-g/l dose group, except for the dose-related reductions in thymus weights. Blood nickel was measured at 4, 8, 16, and 23 wk of exposure. The mean blood nickel values showed increases between 4 and 8 wk that were proportional to time and dose; thereafter there was no substantial increase in blood nickel in any of the dose groups, except for an increase in the mean blood concentration in the 10-g/l group at 23 wk. The kidney was the major organ of nickel accumulation. The primary toxic effects of nickel sulfate were expressed in the myeloid system. There were dose-related decreases in bone marrow cellularity, and in granulocyte-macrophage and pluripotent stem-cell proliferative responses. In unfractionated bone marrow cells glucose-6-phosphate dehydrogenase enzyme activity from the hexose monophosphate shunt was more sensitive to nickel sulfate than were representative glycolytic or Krebs cycle enzymes, with 25-35% maximum inhibition at 5 g/l and 10 g/l. Aliquots of bone marrow cells were separated into enriched bands of lymphocytes, granulocyte-macrophages, and erythrocytes; enzyme inhibition that occurred in unfractionated bone marrow cell aliquots was only expressed after cell separation in the enriched granulocyte-macrophage cell population, suggesting that these committed stem cells were a primary target of nickel sulfate toxicity. There was one example of systemic immunotoxicity, reduction in the lymphoproliferative response to lipopolysaccharide, and it was regarded as secondary to the primary effect of nickel sulfate on the myeloid system, since this was the only significant change among a panel of seven immune parameters that were evaluated.
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PMID:Evaluation of tissue disposition, myelopoietic, and immunologic responses in mice after long-term exposure to nickel sulfate in the drinking water. 339 77

The phenol phase soluble lipopolysaccharide of Pseudomonas maltophilia strain 555, obtained from cells by the hot aqueous phenol method, was of the smooth type. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis, hydrolysis, methylation, and 13C and 1H nuclear magnetic resonance analyses showed that this lipopolysaccharide has an O-chain polysaccharide composed of a repeating pentasaccharide unit, containing D-rhamnose (D-Rha, one part), 3-acetamido-3,6-dideoxy-D-galactose (D-Fuc3NAc, one part), and 4-acetamido-4,6-dideoxy-D-mannose (D-Rha4NAc, three parts) and having the structure (formula; see text) The serological cross-reactions between P. maltophilia 555 and Brucella species can now be related to the occurrence of N-acyl derivatives of 4-amino-4,6-dideoxy-D-mannopyranosyl residues in the O-chains of their respective lipopolysaccharide components.
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PMID:Analysis of the lipopolysaccharide of Pseudomonas maltophilia 555. 344 30

When stimulated in vitro with macrophage-activating factor or lipopolysaccharide, mouse peritoneal macrophages acquire the capacity to develop a strong respiratory burst when they are triggered by membrane-active agents. The presence of intracellular parasites of the genus Leishmania (L. enriettii, L. major) significantly inhibited such activity, as measured by chemiluminescence, reduction of cytochrome c and Nitro Blue Tetrazolium, and hexose monophosphate shunt levels. On the contrary, inert intracellular particles such as latex beads strongly increased the macrophage respiratory burst, suggesting that the Leishmania-linked inhibition resulted from a specific parasite effect. Impairment of macrophage oxidative metabolism by intracellular Leishmania spp. was a function of the number of infecting microorganisms and was more pronounced in macrophages infected with living than with dead parasites. Moreover, the metabolic inhibition was less apparent in L. enriettii-infected macrophages that were exposed to both macrophage-activating factor and lipopolysaccharide, i.e., conditions leading to complete parasite destruction. The mechanisms of respiratory burst inhibition by intracellular Leishmania spp. are unclear, but these observations suggest that such effects may contribute significantly to intracellular survival of the microorganisms.
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PMID:Impairment of the oxidative metabolism of mouse peritoneal macrophages by intracellular Leishmania spp. 354 31

Previous work from this laboratory has demonstrated the persistence of Bacteroides intermedius in the livers of mice receiving an intraperitoneal inoculum of B. intermedius and Fusobacterium necrophorum. This study was undertaken to determine whether F. necrophorum enhanced the in vitro growth of B. intermedius. Tryptose phosphate broth did not support the growth of B. intermedius alone, but the bacterium did survive in a tryptose phosphate broth culture of F. necrophorum. B. intermedius cultured in F. necrophorum-conditioned tryptose phosphate broth grew impressively, reaching maximal absorbance at 24 h after inoculation. The growth of B. intermedius in F. necrophorum-conditioned tryptose phosphate broth was proportional to the amount of conditioned medium present. The B. intermedius growth-stimulating factor was detectable in conditioned medium 8 h after inoculation with F. necrophorum and could be detected throughout the 96-h incubation period. Growth-factor-active fractions eluted from a Sephadex G-100 column did not absorb at 280 nm and were retained on the column until 4 column volumes were eluted. The growth factor was nondialyzable and stable to boiling, lyophilization, extraction with hot aqueous phenol, and trypsin digestion. The factor was inactivated by exposure to pH 2.0 in the pepsin digestion protocol. Significant amounts of hexose, methyl pentose, and 2-keto-3-deoxyoctonate were detected in pooled growth-factor-active fractions eluted from the Sephadex column. This pool was also active in the Limulus lysate endotoxin assay. These results suggest that the B. intermedius growth-stimulating factor produced by F. necrophorum is a lipopolysaccharide.
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PMID:Enhancement of Bacteroides intermedius growth by Fusobacterium necrophorum. 370 Jun 5

Escherichia coli strains from' serotypes O86, 0128 and O111 varied in their reactivity with Pseudomonas aeruginose lectins (PA-I with D-galactose specificity and PA-II which binds L-fucose, D-mannose, L-galactose and D-fructose). Generally, cells of O86 strains were agglutinated by PA-I, but not by PA-II, and those of O128 serotype were agglutinated by PA-II, and not by PA-I. Adsorption tests showed that cells of E. coli O86 strains adsorb PA-I to a greater extent than PA-II, while most E. coli O128 strains adsorbed higher amounts of PA-II. Cells of E. coli O111B4 which were not agglutinated by either Pseudomonas lectin could still adsorb both. Boiling of O86 and O128 cells frequently enhanced their agglutinability as well as their lectin adsorption capacity. The agglutinability enhancement was somewhat more prominent in boiled stationary phase cells than in log phase cells probably due to late synthesis of the O antigen components concomitantly with the heat-sensitive components (K antigens) which masked them. PA-I agglutinating activity was inhibited by the lipopolysaccharide (LPS) extracted from E. coli O86 cells, while PA-II was inhibited by the LPS extracted from E. coli O128 cells. These findings indicate that the receptors to the Pseudomonas lectins probably reside in the terminal part of the O-specific-polysaccharide of the LPSs of these bacteria.
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PMID:Effects of growth phase and boiling of enteropathogenic Escherichia coli strains on their interaction with Pseudomonas aeruginosa lectins. 393 24

Capsular structure and biochemical composition varied between two isolates (virulent and avirulent) of Haemophilus pleuropneumoniae serotype 5. The presence of capsule was determined by transmission electron microscopy with glutaraldehyde-osmium, ruthenium red, alcian blue, and phosphotungstic acid staining procedures. The virulent isolate of H. pleuropneumoniae had a distinct, adherent capsule. The avirulent isolate had a fragile, easily removed capsule. Capsular material (CM) and a lipopolysaccharide (LPS) were isolated from each bacterial isolate and were compared biochemically and biologically. CM from both isolates contained carbohydrates, no detectable protein, and no detectable to trace amounts of lipid A. Each LPS contained heptose, hexose, galactose, glucosamine, 2-keto-3-deoxyoctonate, and lipid A. Biological responses to CM and LPS from both isolates were demonstrated in the proclotting enzyme of Limulus polyphemus amebocyte lysate activation and in serological cross-reactions by immunofluorescence and immunodiffusion precipitation. The virulent isolate contained approximately 10 mg of LPS per g more on an original dry weight basis than the avirulent isolate. LPS from the virulent isolate contained approximately 13 times more galactose than LPS from the avirulent isolate. The differences of capsular structure and biochemical composition may contribute to the role of CM in porcine H. pleuropneumoniae infections.
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PMID:Morphological and biochemical comparison of virulent and avirulent isolates of Haemophilus pleuropneumoniae serotype 5. 394 95

Mild acid hydrolysis with 1% acetic acid (100 degrees C, 15-60 min) of lipopolysaccharide (LPS) isolated from Coxiella burnetii phase I cells leads to a drastic decrease in its serological reactivity as shown by the passive hemolysis test. This decrease in reactivity occurs parallel or even prior to the cleavage of LPS into free lipid A and the polysaccharide moiety. During this mild hydrolysis two unusual sugars (X and Y) are released from the LPS, which were obtained in pure state by thin-layer chromatography. Analysis of their alditol acetate derivatives by gas chromatography/mass spectrometry revealed that sugar X is a 6-deoxy-3-C-methyl-hexose and sugar Y a 3-C-(hydroxymethyl)-pentose. Using a range of authentic standards and different thin-layer and gas chromatographic conditions, X could be recognized as 6-deoxy-3-C-methyl-gulose (virenose), very probably as the L form of this sugar (L-virenose). Y has been identified as 3-C-(hydroxymethyl)-lyxose (dihydrohydroxystreptose) by comparing it with newly synthesized 3-C-(hydroxymethyl)-pentoses (Dahlman, O., Garegg, P. J., Mayer, H., Schramek, S., unpublished results). Both branched sugars are (at least partially) in terminal positions since methylation analysis of LPS afforded (mainly) their permethylated derivatives. This analysis further showed virenose to be linked in C. burnetii phase I LPS as pyranose and dihydro-hydroxystreptose as furanose. The terminal linkage and the chemical nature of X and Y are in accordance with the observed acid-lability of the serological determinants.
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PMID:3-C-branched aldoses in lipopolysaccharide of phase I Coxiella burnetii and their role as immunodominant factors. 399 91

The "T1 side chain" portion of cell wall lipopolysaccharide from T1 strains of Salmonella contains d-galactofuranose and d-ribofuranose residues. Isotope labeling studies, using intact cells of mutants each blocked at either of the two different steps of d-galactose metabolism (uridine diphosphate-glucose 4-epimerase and galactose-1-P uridylyl transferase) or at phosphoglucoisomerase, led to the following conclusions. (i) d-Galactofuranose residues are synthesized from d-galactopyranose or its derivatives, rather than by a direct conversion from other hexopyranoses or their derivatives. (ii) The pyranose-to-furanose conversion does not appear to take place at the level of the free d-galactose or d-galactose 1-phosphate. This result suggests that the conversion may occur at the stage of uridine diphosphate-d-galactose. (iii) In a mutant lacking phosphoglucoisomerase, d-ribofuranose residues in T1 side chains contained (14)C derived from exogenous d-fructose-U-(14)C, but little (3)H from exogenous d-glucose-1-(3)H. Thus, no evidence was found for a direct pathway of aldohexose-to-ribose conversion involving a loss of one of the carbons in the C2-C6 moiety of aldohexoses. This suggests, but does not prove, that the T1 ribofuranose residues are synthesized by conventional mechanisms involving hexose monophosphate shunt and transketolase-transaldolase reactions.
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PMID:Biosynthesis of T1 antigen in Salmonella: origin of D-galactofuranose and D-ribofuranose residues. 492 77

The attachment of Salmonella typhimurium strain PHL67342 to several mammalian tissue culture cell lines was investigated. Strain PHL67342 failed to attach in significant numbers to the Buffalo green monkey (BGM), swine testicular (ST), and HeLa cell lines. Significant attachment was observed with the Henle intestinal cell line. Log-phase cells of strain PHL67342 attached in greatest numbers to the Henle cells after 45 min of incubation at 37 degrees C. Attachment to the Henle cells was not affected by D-mannose or D-galactose, but was markedly inhibited by high concentrations of alpha-methyl-D-mannoside. Also, Salmonella lipopolysaccharide had no effect on the attachment of strain PHL67342 to the Henle cells. Fimbriae were not detected on the bacterial cells used in the adherence experiments. These results suggest that some bacterial factor(s) other than fimbriae and lipopolysaccharide mediate the attachment of strain PHL67342 to the Henle cells.
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PMID:Attachment of Salmonella to mammalian cells in vitro. 614 6

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