A. S. Shashkov scite author profile

O-Antigens (O-specific polysaccharides) of Shigella flexneri, a primary cause of shigellosis, are distinguished by a wide diversity of chemical modifications following the oligosaccharide O-unit assembly. The present review is devoted to structural, serological, and genetic aspects of these modifications, including O-acetylation and phosphorylation with phosphoethanolamine that have been identified recently. The modifications confer the host with specific immunodeterminants (O-factors or O-antigen epitopes), which accounts for the antigenic diversity of S. flexneri considered as a virulence factor of the pathogen. Totally, 30 O-antigen variants have been recognized in these bacteria, the corresponding O-factors characterized using specific antibodies, and a significant extension of the serotyping scheme of S. flexneri on this basis is suggested. Multiple genes responsible for the O-antigen modifications and the resultant serotype conversions of S. flexneri have been identified. The genetic mechanisms of the O-antigen diversification by acquisition of mobile genetic elements, including prophages and plasmids, followed occasionally by gene mobilization and inactivation have been revealed. These findings further our understanding of the genetics and antigenicity of S. flexneri and assist control of shigellosis.

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Structural studies on the core and the O‐polysaccharide repeating unit of Pseudomonas aeruginosa immunotype 1 lipopolysaccharide

Bystrova

Shashkov

Kocharova

et al. 2002

European Journal of Biochemistry

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The structure of the lipopolysaccharide (LPS) of Pseudomonas aeruginosa immunotype 1 was studied after mild acid and strong alkaline degradations by MS and NMR spectroscopy. Three types of LPS molecules were found, including those with an unsubstituted glycoform 1 core (A) or an isomeric glycoform 2 core substituted with one O‐polysaccharide repeating unit (B) or with a long‐chain O‐polysaccharide. Therefore, of two core glycoforms, only glycoform 2 accepts the O‐polysaccharide. In the structures A and B, Kdo, Hep, Hep7Cm, GalNAcAN3Ac, GalNFoAN, QuiNAc, GalNAla represent 3‐deoxy‐d‐manno‐octulosonic acid, l‐glycero‐d‐manno‐heptose, 7‐O‐carbamoyl‐l‐glycero‐d‐manno‐heptose, 2‐acetamido‐3‐O‐acetyl‐2‐deoxygalacturonamide, 2‐formamido‐2‐deoxygalacturonamide, 2‐acetamido‐2,6‐dideoxyglucose and 2‐(l‐alanylamino)‐2‐deoxygalactose, respectively; all sugars are in the pyranose form and have the d configuration unless otherwise stated. One or more phosphorylation sites may be occupied by diphosphate groups. In a minority of the LPS molecules, an O‐acetyl group is present in the outer core region at unknown position. The site and the configuration of the linkage between the O‐polysaccharide and the core and the structure of the O‐polysaccharide repeating unit were defined in P. aeruginosa immunotype 1. The QuiNAc residue linked to the Rha residue of the core was found to have the β configuration, whereas in the interior repeating units of the O‐polysaccharide this residue is in the α‐configuration. The data obtained are in accordance with the initiation of biosynthesis of the O‐polysaccharide of P. aeruginosa O6, which is closely related to immunotype 1, by transfer of d‐QuiNAc‐1‐P to undecaprenyl phosphate followed by synthesis of the repeating O‐antigen tetrasaccharide.

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Structural features of sulfated chitosans

Gamzazade

Sklyar

Nasibov

et al. 1997

Carbohydrate Polymers

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The core structure of the lipopolysaccharide from the causative agent of plague, Yersinia pestis

Vinogradov

Lindner

Kocharova

et al. 2002

Carbohydrate Research

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Stereochemical studies—XX

et al. 1976

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A. S. Shashkov

O-Antigen modifications providing antigenic diversity of Shigella flexneri and underlying genetic mechanisms

Structural studies on the core and the O‐polysaccharide repeating unit of Pseudomonas aeruginosa immunotype 1 lipopolysaccharide

Structural features of sulfated chitosans

The core structure of the lipopolysaccharide from the causative agent of plague, Yersinia pestis

Stereochemical studies—XX

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