Abstract
Nine unmodified endotoxin preparations constituted of Re-, Rd-, and Rc-type lipopolysaccharides (2 to 5 glycoses), representing four species of enterobacteria were analyzed by 252Cf plasma desorption mass spectrometry. The constituent lipopolysaccharides were characterized by the ion pair: (M-H)- and its corresponding lipid fragment ion. The lipid fragment ion is produced by cleavage of the glycosidic bond of the 3-deoxy-D-manno-oct-2-ulosonic acid unit that substitutes O-6' of the glucosamin beta 1'-6glucosamine ("lipid A backbone") disaccharide of the lipid A moiety. These lipid fragment ions were identical to the (M-H)- ions seen in the spectra of homologous isolated lipid A preparations that were obtained by hydrolysis (pH 4.5, 100 degrees C) promoted by sodium dodecyl sulfate. Since the molecular components present in the endotoxin preparations analyzed are known, the ion pair (M-H)(-)-lipid fragment ion defines the molecular compositions of each individual lipopolysaccharide. Heterogeneity of the R-type endotoxin preparations analyzed was due almost exclusively to differing lipid A moieties. In three Salmonella minnesota 595 Re endotoxin preparations 10 different lipopolysaccharides were identified, only two of which were common to all three preparations. Of the nine lipopolysaccharides identified in two S. minnesota R7 endotoxin preparations, only two were present in both.
Highlights
Nine unmodifiedendotoxin preparations constituted deoxy-~-rnanno-2-octulosonaiccid (KDO)’ which, in certain of Re, Rd, and Rc-type lipopolysaccharides
No endotoxin preparation has been rations 10 different lipopolysaccharides were identi- described in terms of unmodified individual chemical strucfied, only two of which were commonto all three tures of its constituent lipopolysaccharides
Geneous precipitate isolated after treatmentof endotoxin preparations with acid lipid base, a group of constituents found tobe common to most of the lipopolysaccharides present in the endotoxin preparations analyzed in this study; LPS, endotolxipiocpolysaccharide of bacterial origin; n.i., not identified; n.o., not observed; obs., observed PDMS, plasma desorption mass spectrometry; PenN, pentosamine; Phosph., phosphoric acid; HPLC, high performance liquid chromatography
Summary
From the SEquipe “Endotoxines”d u Centre National de la Recherche Scientifique, Institut de Biochimie, Universite de Paris Sud, and the §Equipe “Interaction Ion-Surface et Materiaux,” Institudt e Physique Nucleaire, F-91405, Orsay, France. Geneous precipitate isolated after treatmentof endotoxin preparations with acid lipid base, a group of constituents found tobe common to most of the lipopolysaccharides present in the endotoxin preparations analyzed in this study; LPS, endotolxipiocpolysaccharide of bacterial origin; n.i., not identified; n.o., not observed; obs., observed PDMS, plasma desorption mass spectrometry; PenN, pentosamine; Phosph., phosphoric acid; HPLC, high performance liquid chromatography.
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