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Lotus tetragonolobus lectin

Sugar Inhibition2"0 of the Precipitin Reaction Between Human H Substance and Lotus tetragonolobus Lectins A, B, and C... [Pg.286]

Inhibition of Human Blood-group H Substance-Lotus tetragonolobus Lectin Precipitation by Sugars and Oligosaccharides200 of Low Molecular Weight0... [Pg.287]

Lotus tetragonolobus lectin Melanoma cell membranes... [Pg.666]

Cell division is stimulated by lectins (for a review, see Ref. 188) and by other saccharide-directed reagents, for example, sodium periodate and D-galactose oxidase after desialylation,189 but there is no evidence that it is the fucopyranosyl residues that are the specific receptors in these instances. The L-fucose-specific lectins from, for example, Lotus tetragonolobus and Ulex europeus are not mitogenic. [Pg.311]

Lotus lectin Lotus tetragonolobus 1-Fucose [mitogenic]... [Pg.500]

The immunochemical studies of Kabat and coworkers200 686 revealed some striking subtleties in Lotus tetragonolobus sugar-specificity. Precipitin reactions between the lectin and several blood-group H substances demonstrated strong affinity of the lectin for this determinant. H substances precipitated 83-88% of the purified Lotus lectin at... [Pg.285]

Fig. 16.—Glycopeptide from Pineapple-stem Bromelin872,873 Showing the Carbohydrate-binding Loci for Various Lectins, [a, Canavalia ensiformis b, Lens culinaris c, Pisum sativum d, Viciafaba e, Lotus tetragonolobus f, Anguilla anguilla g, Ulex europeus I h, Triticum vulgaris i, Solanum tuberosum j, Cytisus sessilifolius and k, Ulex europeus II.]... Fig. 16.—Glycopeptide from Pineapple-stem Bromelin872,873 Showing the Carbohydrate-binding Loci for Various Lectins, [a, Canavalia ensiformis b, Lens culinaris c, Pisum sativum d, Viciafaba e, Lotus tetragonolobus f, Anguilla anguilla g, Ulex europeus I h, Triticum vulgaris i, Solanum tuberosum j, Cytisus sessilifolius and k, Ulex europeus II.]...
UEA I has been sequenced and shown to exhibit extensive homology with many other legume lectins, but not with Lotus tetragonolobus, another L-fucose-binding lectin. [Pg.423]

Figure 5 Fluorescence image of oligosaccharide microarrays spotted with 10 ohgosaccha-ride probes with identical carbohydrate chips that were separately incubated with each of 3 biotin-labeled lectins (0.1 mg/ml in PBST) for 1 h, washed with PBST 3 times for 5 min each, and stained with 5 pg/ml of Cy3-strptavidin and evaluated by confocal fluorescence microscopy. Fluorescence images of oligosaccharide microarrays probed with (A) concanavah A (Con A), (B) LoTus Tetragonolobus (LT), and (C) Erythrina Gristagalli (EC). Figure 5 Fluorescence image of oligosaccharide microarrays spotted with 10 ohgosaccha-ride probes with identical carbohydrate chips that were separately incubated with each of 3 biotin-labeled lectins (0.1 mg/ml in PBST) for 1 h, washed with PBST 3 times for 5 min each, and stained with 5 pg/ml of Cy3-strptavidin and evaluated by confocal fluorescence microscopy. Fluorescence images of oligosaccharide microarrays probed with (A) concanavah A (Con A), (B) LoTus Tetragonolobus (LT), and (C) Erythrina Gristagalli (EC).
See other pages where Lotus tetragonolobus lectin is mentioned: [Pg.143]    [Pg.604]    [Pg.372]    [Pg.459]    [Pg.143]    [Pg.604]    [Pg.372]    [Pg.459]    [Pg.316]    [Pg.335]    [Pg.138]    [Pg.141]    [Pg.144]    [Pg.146]    [Pg.208]    [Pg.225]    [Pg.331]    [Pg.128]    [Pg.423]    [Pg.371]    [Pg.485]    [Pg.92]    [Pg.286]   


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