Preparation and Characterization of Acid Hydrolysis Products of the Tomato Glycoalkaloid α-Tomatine
1998; American Chemical Society; Volume: 46; Issue: 6 Linguagem: Inglês
10.1021/jf970898k
ISSN1520-5118
AutoresMendel Friedman, Nobuyuki Kozukue, Leslie A. Harden,
Tópico(s)Cassava research and cyanide
ResumoAs part of an effort to define the biological roles of carbohydrate groups of the tomato glycoalkaloid α-tomatine in plants and animals, experiments were carried out to optimize the acid hydrolysis of the tetrasaccharide side chain of α-tomatine to products with three, two, one, and zero sugar groups. This was accomplished by following the time course for hydrolysis in 1 N HCl at 100 °C, isolating the hydrolysis products by chromatography on an aluminum oxide column, and determining the number and nature of hydrolysis products, including free sugars, with the aid of thin-layer chromatography and gas chromatography/mass spectrometry of alditol acetate sugar derivatives. The results show that a 20-min hydrolysis time appears useful for the formation of a mixture of the monosaccharide δ-tomatine, the disaccharide γ-tomatine, and the trisaccharide β1-tomatine. Efforts to isolate the other possible trisaccharide, β2-tomatine, were unsuccessful, apparently because xylose is degraded during the hydrolysis. A 70-min exposure achieved complete hydrolysis of α-tomatine to the aglycon tomatidine. α-Tomatine was stable to hydrolysis at 37 °C, suggesting that it may also be stable to comparable acid conditions of the gut of insects, animals, and humans. The approach used should be generally useful for preparing hydrolysis products of glycoalkaloids and other glycosides such as saponins to facilitate assessing the role of the carbohydrate groups of these compounds in host-plant resistance, nutrition, and microbiology. Keywords: Acid hydrolysis; aluminum oxide chromatography; carbohydrate analysis; gas chromatography; glycoalkaloids; glycoside; mass spectrometry; thin-layer chromatography; tomatidine; α-tomatine; β1-tomatine; β2-tomatine; γ-tomatine; δ-tomatine; tomatoes
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