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An Innovative Short-Clustered Maltodextrin as Starch Substitute for Ameliorating Postprandial Glucose Homeostasis

Haocun Kong, Luxi Yu, Zhengbiao Gu, Caiming Li, Li Cheng, Yan Hong, Zhaofeng Li

2020Journal of Agricultural and Food Chemistry41 citationsDOI

Abstract

Dietary starch is usually associated with elevated postprandial glycemic response. This is a potential risk factor of type 2 diabetes. Here, a 1,4-α-glucan branching enzyme (GBE) was employed to reassemble α-1,4 and α-1,6 glycosidic bonds in starch molecules. Structural characterization showed that GBE-catalyzed molecular reassembly created an innovative short-clustered maltodextrin (SCMD), which showed a dense internal framework along with shortened external chains. Such short-clustered molecules obstructed digestive enzymes attack and displayed dramatically reduced digestibility. Therefore, SCMD was served as a dietary starch substitute to improve postprandial glucose homeostasis. A 22.3% decrease in glycemic peak was therefore detected in ICR mice following SCMD intake (10.7 mmol/L), compared with that in the control (13.8 mmol/L). Moreover, an attenuated insulin response (40.5% lower than that in control) to SCMD intake was regarded suitable for diabetes management. These novel discoveries demonstrate that enzymatically rebuilding starch molecules may be a meaningful strategy for diabetes management.

Topics & Concepts

PostprandialGlycemicMaltodextrinStarchGlucose homeostasisResistant starchDiabetes mellitusChemistryCarbohydrateBiochemistryGlycemic indexInsulinInternal medicineFood scienceEndocrinologyBiologyMedicineInsulin resistanceChromatographySpray dryingFood composition and propertiesMicrobial Metabolites in Food BiotechnologyPhytase and its Applications
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