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Degradation of Xyloglucan by Wall-Bound Enzymes from Soybean Tissue II: Degradation of the Fragment Heptasaccharide from Xyloglucan and the Characteristic Action Pattern of the -D-Xylosidase in the Enzyme System
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1983
Year
EngineeringGlycobiologyPolysaccharideEnzymatic ModificationSequential SplittingBiosynthesisSoybean Tissue IiWall-bound EnzymesBiochemical EngineeringGlycosylationProtein GlycosylationBiotransformationBiochemistryIn Vitro FermentationFragment HeptasaccharideSoybean Cell WallBiomolecular EngineeringNatural SciencesBiotechnologyMicrobiologyCarbohydrate-protein Interaction
Hydrolysis of the fragment heptasaccharide (glucose : xylose=4 : 3) from xyloglucan with an enzyme preparation from soybean cell wall produced a penta- and a trisaccharide. The results of fragmentation analysis of these oligosaccharides with Aspergillus oryzaeβ-D-glucosidase indicate the following structures for the penta- and trisaccharide. The detection of these intermediate products suggested that degradation of the heptasaccharide took place by sequential splitting of the α-D-xylosidic and β-D-glucosidic linkages. A characteristic action pattern of the α-D-xylosidase in the enzyme preparation was found.