Application of quantitative immunoelectrophoretic analysis to the assay of the carbohydrate antigens, alginate and fucan

Identification of associating carbohydrate sequences with labelled oligosaccharides : Localization of alginate-gelling subunits in cells walls of a brown alga

The gelling subunit of alginate, the major cell-wall polysaccharide of brown algae, was used as a molecular marker for identification of this cell-wall carbohydrate subunit at the cellular level. Short polyguluronate chains were conjugated to fluorescein and used as a probe to identify the gelling regions of alginate in tissue sections from a brown alga. The specificity of the probe for gelling subunits was demonstrated by lack of cell-wall labelling in the absence of calcium, correlation between divalent-cation binding affinities of polyguluronate with labelling intensity, and lack of labelling by fluorescein-conjugated nongelling subunits. The probe labelling-pattern also differed from sulfated fucan distribution. Extracellular matrix and cell walls were labelled on sections of vegetative blade, stipe and reproductive frond of Fucus gardneri Silva. Probe labelling was rapid, being virtually complete within 5 min. Probe labelling in seawater differed markedly from labelling at lower ionic strength and is interpreted as reflecting alginategelling properties in natural conditions. High-and low-affinity binding sites are discussed in terms of gelling-subunit length and steric availability. Fluorescein-conjugated polygalacturonate, which also forms calcium dimers, labelled extracellular alginate by formation of mixed polygalacturonate-polyguluronate dimers. Binding by the alginate hybridization probe differs from nucleic-acid hybridization in divalent-cation bridging and the lack of both a conformational transition and polymer polarity.

Monoclonal antibodies as molecular probes for cell wall antigens of the brown alga, Fucus

Monoclonal antibodies to cell wall carbohydrates were produced against carbohydrates extracted from the brown alga, Fucus distichus ssp. edentatus (de la Pyl.) Powell. Mouse spleen cells were immunized in vitro with alginate and fucans, and hybridoma cultures were screened by enzyme immunoassay. Most antibodies were immunoglobulin (Ig)M and one was IgA. Antigens were localized on methacrylate sections of Fucus tissues by indirect immunofluorescence. Each antibody labelled tissues with a distinctive distribution pattern in cell walls and extracellular matrix regions, demonstrating that each antibody was specific for a different extracellular epitope (i.e., antigenic determinant). Most antibodies also labelled intracellularly on at least one cell type. Punctate, fibrous or clumped labelling was characteristic of individual antibodies and provided information related to carbohydrate structure and solubility. These antibodies are molecular probes for small regions on cell wall polymers and should be valuable in studies of cell wall synthesis, secretion, assembly and modification as well as carbohydrate fine structure and function.

Properties of Alginate Lyases from Marine Bacteria

Alginate lyases (EC 4.2.2.3) from two marine bacteria were isolated and partially characterized. A cell-bound lyase from isolate A3 had a molecular weight of approximately 100,000 and cleaved mannuronate blocks, apparently in an exo manner. A lyase recovered from the culture medium of isolate W3 was soluble in saturated ammonium sulfate, cleaved guluronate blocks, apparently in an endo manner, and had a molecular weight of 35,000. The thiobarbiturate test and urea-polyacrylamide gel electrophoresis were used to determine substrate specificity and mode of substrate cleavage by the enzymes.