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 sequence of monosaccharides in the biological repeating tetrasaccharide unit of Shigella flexneri variant Y O-antigenic polysaccharide chain was determined by subjecting three oligosaccharides of the polysaccharide, obtained by phage-Sf6-mediated enzymatic hydrolysis, to methylation analysis and proton nuclear magnetic resonance spectroscopy. The smallest saccharide was shown to be a tetrasaccharide with the structure alpha-L-Rhap-(1-2)-L-Rha. The next saccharide, an octasaccharide, was shown to be a dimer of the tetrasaccharide with the L-Rha residues linked alpha 1.3. The longest saccharide was shown to be a decasaccharide with the following structure: alpha-L-Rhap-(1-2)-alpha-L-Rhap-(1-3)-alpha-L-Rhap-(1- 3)-beta-D-GlcpNAc-(1-2)-alpha-L-Rhap-(1-2)-alpha-L-Rhap++ + +-(1-3)-alpha-L-Rhap-(1-3)-beta-D-GlcpNAc-(1-2)-alpha-L-R hap-(1-2)-L-Rha. Thus the decasaccharide differed from the octasaccharide and tetrasaccharide by having the alpha-L-Rhap-(1-2)-L-Rhap disaccharide added in the terminal non-reducing end of the saccharide chain. This shows that the alpha-L-Rhap-(1-2)-alpha-L-Rhap-(1-3)-alpha-L-Rhap-(1- 3)-D-GlcpNAc tetrasaccharide is the biological repeating unit of the O chain and that the repeating units are joined through a beta-D-GlcpNAc-(1-2)-L-Rhap linkage. Inhibition experiments utilizing the enzyme-linked immunosorbent assay (ELISA) with S. flexneri Y lipopolysaccharide/S. flexneri Y rabbit antiserum showed that the decasaccharide was the best inhibitor (threefold as active as the octasaccharide and sixtyfold as active as the tetrasaccharide); this supports the postulated structure of the biological repeating unit.
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PMID:The Shigella flexneri O-antigenic polysaccharide chain. Nature of the biological repeating unit. 619 98

Endotoxin prepared from several Bordetella pertussis strains in both immunological phases I and IV gave two lipopolysaccharide peaks (LPS-I and LPS-II) when analyzed on hydroxylapatite columns in a phosphate buffer containing 0.1% sodium dodecyl sulfate; these lipopolysaccharides, present in the ratio of 2:3, are true endotoxins by both chemical and biological criteria. Endotoxins isolated from Escherichia coli, Salmonella typhimurium, and Shigella flexneri gave single lipopolysaccharide peaks when analyzed by the same procedure. Upon hydrolysis with acetic acid (pH 3.4) at 100 degrees C for 1 h, LPS-I released a polysaccharide (PS-I); the linkage broken was that of the glycosidic bond of a non-phosphorylated 3-deoxy-oct-2-ulosonic acid. Treatment with 0.25 M mineral acid at 100 degrees C for 30 min was required to free the polysaccharide moiety (PS-II) of LPS-II, the linkage broken being the glycosidic bond of a phosphorylated 3-deoxy-oct-2-ulosonic acid. Chemical and physical differences of the polysaccharide moieties PS-I and PS-II present in LPS-I and LPS-II have been described previously (25). By using the technique of 125I labeling, it was shown that the totality of labeled proteins present in the endotoxin extracted from Bordetella pertussis by the phenol-water procedure could be separated from the lipopolysaccharide by column chromatography on hydroxylapatite; it follows that these proteins are not linked by covalent bonds to the lipopolysaccharide.
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PMID:Isolation of two protein-free and chemically different lipopolysaccharides from Bordetella pertussis phenol-extracted endotoxin. 624 93

In studies of the role of surface antigens of Shigella flexneri in HeLa cell invasion, three antisera were employed to block the invasion. Antisera against live (ALS) and boiled (ABS) S. flexneri blocked invasion very effectively. Reduction in the numbers of intracellular shigellae was always accompanied by reduction in the number adherent to the cells, indicating the importance of adhesion in the invasive process. Anti-live absorbed antiserum (ALAS) prepared by exhaustive absorption of ALS with boiled S. flexneri blocked adhesion and invasion at dilutions of 20 or 50; the efficiency of the absorption was indicated by absence of agglutinating and anti-lipopolysaccharide (LPS) antibodies. S. flexneri LPS did not block adhesion and invasion even at a concentration of 1.0 mg/ml. Hence it was concluded that heat-labile surface antigens are important in adhesion and invasion of HeLa cells by S. flexneri. Antiserum against heat stable antigen (ABS) probably blocks adhesion by steric hindrance.
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PMID:Role of heat labile antigens of Shigella flexneri in HeLa cell invasion. 633 62

The effect of bacterial exotoxins and endotoxins on phagocytosis was tested on human macrophages in monolayer cultures by determining the rate of zymosan particle ingestion at different toxin concentrations and incubation times. The exotoxins tested were staphylococcal alpha-toxin and diphtheria-toxin. The endotoxins used were lipopolysaccharides from Salmonella typhi, Salmonella typhimurium, Shigella flexneri and Serratia marcescens. Phagocytosis was significantly impaired after prolonged incubation with diphtheria toxin whereas alpha-toxin was ineffective. Endotoxin-treated macrophages showed a wide range of phagocytic activity. Enhancement of phagocytosis was observed with a low concentration of endotoxin (1 microgram/ml) from S. typhi, S. typhimurium and S. flexneri. Higher concentrations (2.5 and 5 micrograms/ml) depressed phagocytosis to varying extents, except for S. typhi lipopolysaccharide, which did not induce a significant decrease in phagocytosis in comparison to the controls.
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PMID:The influence of bacterial exotoxins and endotoxins on the phagocytic activity of human macrophages in culture. 635 Jan 91

The synthesis of the trisaccharide O-beta-L-rhamnopyranosyl-(1 leads to 4)-O-beta-L-rhamnopyranosyl-(1 leads to 2)-L-rhamnopyranose (14) and the tetrasaccharide O-2-acetamido-2-deoxy-beta-D-galactopyranosyl)-(1 leads to 2)-O-[beta-L-rhamnopyranosyl-(1 leads to 4)]-O-beta-L-rhamnopyranosyl-(1 leads to 2)-L-rhamnopyranose (21) is described. The latter structure has been proposed as the repeating unit of the O-specific side-chain of the lipopolysaccharide obtained from Shigella flexneri Serotype 6. The key-intermediate was 4-O-acetyl-2-O-allyl-3-O-benzyl-alpha-D-rhamnopyranosyl bromide, which was first linked to benzyl 3,4-di-O-benzyl-alpha-L-rhamnopyranoside, to give a blocked beta-linked disaccharide. This was O-deacetylated and coupled with 2,3,4-tri-O-benzyl-alpha-L-rhamnopyranosyl bromide at O-4' to afford benzyl O-(2,3,4-tri-O-benzyl-beta-L-rhamnopyranosyl)-(1 leads to 4)-O-(2-O-allyl-3-O-benzyl-beta-L-rhamnopyranosyl)-(1 leads to 2)-3,4-di-O-benzyl-alpha-L-rhamnopyranoside (11), which was deprotected to give 14. Deallylation of 11 and coupling with 6-O-acetyl-2-azido-3,4-di-O-benzyl-2-deoxy-alpha-D-galactopyranosyl bromide led to a protected tetrasaccharide from which 21 was obtained. The method of catalysis by silver silicate was employed to obtain the beta-glycosidic linkage of all monosaccharide units.
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PMID:[Synthesis of beta-L-rhamnoside linked oligosaccharides of lipopolysaccharides from Shigella flexneri serotype 6]. 635 43

The specificity of endotoxin (lipopolysaccharide, LPS) in the carbocyanine dye reaction was investigated, and then a stoichiometric study of the dye-LPS interaction was conducted with attention to the relationship of biological activities of LPS to the reactivity with the dye. Absorption maxima of some bacterial components in the dye reaction were as follows; LPS from both Escherichia coli and Pseudomonas aeruginosa and lipid A from E. coli LPS, 465 nm; Shigella flexneri LPS, 460 nm; Salmonella minnesota R595 glycolipid, 470 nm; polysaccharide from E. coli LPS, 650 nm; yeast RNA, 620 nm; streptococcal M protein and pyrogenic exotoxin, 610 nm; and free fatty acids, 445-450 nm. The absorbance at 465 nm was increased approximately threefold by sonicating LPS for 1-3 min, which roughly paralleled the decrease in turbidity of the LPS aqueous solution. The Limulus amoebocyte lysate (LAL) gelation activity of LPS increased 10-fold when LPS was sonicated for 0.5-5 min, but it decreased to the control level after further treatment. This decrease, however, was overcome by sonication in the presence of 5 mmol of L-ascorbic acid used as an antioxidant. The LAL gelation activity of LPS was inactivated in parallel with an increase in the ratio (w/w) of dye to LPS from 1.73 to 6.90 in the dye-LPS mixture. Pyrogenicity of LPS was also clearly inactivated when the ratio was over 1.73. The ratios of the height of the beta band at 465 nm (dye-LPS complex) to that of the alpha band at 510 nm (free dye) were increased by sonicating LPS, indicating that the binding character, or stacking tendency, was increased by sonicating LPS.
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PMID:Enhancement of endotoxicity and reactivity with carbocyanine dye by sonication of lipopolysaccharide. 644 56

The 8-methoxycarbonyloctyl glycoside of the tetrasaccharide hapten, O-alpha-L-rhamnopyranosyl-(1 leads to 2)-O-alpha-L-rhamnopyranosyl-(1 leads to 3)-O-alpha-L-rhamnopyranosyl-(1 leads to 3)-2-acetamido-2-deoxy-beta-D-glucopyranoside and the trisaccharide glycoside 8-methoxycarbonyloctyl O-alpha-L-rhamnopyranosyl-(1 leads to 3)-O-alpha-L-rhamnopyranosyl-(1 leads to 3)-2-acetamido-2-deoxy-beta-D-glucopyranoside were synthesized by sequential Koenigs-Knorr reactions from monosaccharide units. The tetrasaccharide represents the complete skeletal repeating unit of Shigella flexneri serogroup Y lipopolysaccharide. Both oligosaccharide haptens are functionalized for covalent attachment to proteins, cell surfaces, and solid supports. 1H-N.m.r. evidence for the conformations of these oligosaccharides in solution is presented and shown to be consistent with predictions based on the exo-anomeric effect.
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PMID:Artificial carbohydrate antigens: the synthesis of a tetrasaccharide hapten, a Shigella flexneri O-antigen repeating unit. 698 76

Active immunization of guinea pigs and rabbits with outer membrane proteins (OMP) isolated from Shigella flexneri 3a and Shigella sonnei phase I protected the animals against keratoconjunctivitis shigellosa induced with the homologous or heterologous strain. Protection was also achieved in rabbits after passive immunization with anti-OMP immune serum. Active immunization with lipopolysaccharide of S. flexneri 3a did not protect rabbits against keratoconjunctivitis shigellosa.
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PMID:Protection against keratoconjunctivitis shigellosa induced by immunization with outer membrane proteins of Shigella spp. 700 94

Guinea pig colonic epithelial cells released by treating sections of the colon with solutions containing EDTA, dithiothreitol, and citrate avidly adhered Shigella flexneri bacteria. Separation of the intestinal cells from nonbound bacteria was achieved by differential sedimentation on a Percoll gradient. Adherence of S. flexneri to the colonic cells was Ca2+ (1 mM) and time dependent. The pH optimum was pH 6.2, and almost no attachment (less than 5%) was observed at low temperature (4 degrees C). The average number of bacteria which bound to colonic cells was 70 bacteria per cell, whereas attachment to cells isolated from the ileum region was 6 bacteria per cell. Colonic cells obtained from the intestine of rabbits or rats did not adhere Shigella. Adherence to guinea pig colonic cells was inhibited (50%) by several carbohydrates, such as 0.1% fucose or 0.5% glucose, as well as by a lipopolysaccharide preparation (10 micrograms /ml) isolated from S. flexneri. Fixation of the bacteria with glutaraldehyde or preincubation of the bacteria with lectins or proteolytic enzymes did not affect their adherence. Proteolytic digestions or fixation of the epithelial cells, as well as pretreatments with lipopolysaccharide or fucose solutions, abolished their ability to adhere bacteria. These results indicate that a carbohydrate-binding substance on the surface of guinea pig colonic epithelial cells is responsible for the attachment of the Shigella bacilli.
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PMID:Adherence of Shigella flexneri to guinea pig intestinal cells is mediated by a mucosal adhesion. 704 Feb 46

Data on the genetic basis of the classification of Shigella flexneri serological variants 1-5 are presented. Subserovars "a" are related to monolysogenic variants of the basic lipopolysaccharide (LPS) structure 0 antigen 3,4, "b" to bilysogenic ones. A scheme of their antigenic variability, with regard to loss of one or both prophages is presented. This scheme helps differentiate between antigenic variability and mixed or superinfections. Recent reports confirming our previously published suggestion to exclude serovar 6 (Shigella newcastle) from Shigella flexneri are analyzed. We propose that antigenic variability of S. flexneri 1-5 results from lysogenization of naturally occurring strains. The possibility of consecutive lysogenization of S. flexneri y (-:3,4) by bacteriophages 6 and 7 has been shown, as exemplified by the circulation of a previously unknown subserovar IV:7,8.
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PMID:Antigenic variability of Shigella flexneri serovars 1-5. 747 27

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