淀粉
回生(淀粉)
食品科学
淀粉糊化
化学
消化(炼金术)
升糖指数
抗性淀粉
碳水化合物
直链淀粉
血糖性
生物化学
生物技术
生物
胰岛素
色谱法
作者
Shujun Wang,Les Copeland
出处
期刊:Food & Function
[Royal Society of Chemistry]
日期:2013-01-01
卷期号:4 (11): 1564-1564
被引量:660
摘要
Starch is the most important glycemic carbohydrate in foods. The relationship between the rate and extent of starch digestion to produce glucose for absorption into the bloodstream and risk factors for diet-related diseases is of considerable nutritional interest. Native starch is attacked slowly by enzymes, but after hydrothermal processing its susceptibility to enzymatic breakdown is greatly increased. Most starch consumed by humans has undergone some form of processing or cooking, which causes native starch granules to gelatinize, followed by retrogradation on cooling. The extent of gelatinization and retrogradation are major determinants of the susceptibility of starch to enzymatic digestion and its functional properties for food processing. The type and extent of changes that occur in starch as a result of gelatinization, pasting and retrogradation are determined by the type of the starch, processing and storage conditions. A mechanistic understanding of the molecular disassembly of starch granules during gelatinization is critical to explaining the effects of processing or cooking on starch digestibility. This review focuses on the molecular disassembly of starch granules during starch gelatinization over a wide range of water levels, and its consequential effect on in vitro starch digestibility and in vivo glycemic index.
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