食品科学 ›› 2026, Vol. 47 ›› Issue (11): 390-401.doi: 10.7506/spkx1002-6630-20251229-251

• 专题论述 • 上一篇    

全谷物基质结构对淀粉消化特性影响研究进展

胡薇薇,张舒涵,张程程,穆宏磊,张治国,吴卫成   

  1. (浙江省农业科学院食品科学研究所,农产品质量安全全国重点实验室,浙江 杭州 310021)
  • 发布日期:2026-07-02
  • 基金资助:
    国家自然科学基金青年科学基金项目(32302068);浙江省“尖兵领雁+X”研发攻关计划项目(2024C04017)

Research Progress on the Effect of Whole Grain Matrix Structure on Starch Digestive Properties

HU Weiwei, ZHANG Shuhan, ZHANG Chengcheng, MU Honglei, ZHANG Zhiguo, WU Weicheng   

  1. (State Key Laboratory for Quality and Safety of Agro-products, Food Science Institute, Zhejiang Academy of Agricultural Sciences, Hangzhou 310021, China)
  • Published:2026-07-02

摘要: 全谷物保留了完整的胚乳、胚芽与麸皮结构,富含膳食纤维、多酚等生物活性物质,在改善代谢健康尤其是延缓餐后血糖应答方面具有显著作用。淀粉作为其主要营养成分,其消化速率与血糖生成指数密切相关。与精制谷物相比,全谷物完整的籽粒结构及其内源非淀粉组分形成天然基质屏障,从而延缓淀粉消化;然而目前研究多集中于外源组分添加或单一内源组分作用,而对全谷物原位基质结构与组分形成的屏障效应关注不足。本文综述谷物中多尺度基质结构的固有特性,深入阐述全谷物多级结构(如淀粉颗粒结合物、胚乳细胞及糊粉层)空间分布及其内源性组分(如蛋白质、脂质、非淀粉多糖及多酚),明确二者是影响其消化特性的关键因素,并分析加工环境下的相应层级和化学组分变化;阐明内源性蛋白质、脂质、非淀粉多糖及多酚等组分通过调控淀粉糊化特性、分子结构、消化酶活性及可及性等途径,主导淀粉消化行为的作用机理。本文为全谷物食品的精细化加工与营养调控提供了理论依据。

关键词: 全谷物;结构屏障;内源组分;淀粉;消化

Abstract: Whole grains retain the intact structures of the endosperm, germ, and bran, and are rich in bioactive substances such as dietary fiber and polyphenols, demonstrating significant effects on improving metabolic health, particularly delaying postprandial glycemic responses. Starch is the major nutrient component of whole grains, and its digestion rate is closely related to its glycemic index. Compared with refined grains, whole grains possess a natural matrix barrier formed by their intact kernel structure and endogenous non-starch components, thereby delaying starch digestion. However, current research has primarily focused on the effect of exogenous additives or individual components on starch digestion, while insufficient attention has been paid to the barrier effects arising from the in-situ matrix structures and components of whole grains. This review summarizes the intrinsic properties of the multi-scale matrix structure of grains, and elucidates the spatial distribution within the hierarchical structures of whole grains (such as starch granule-associated complexes, endosperm cells, and the aleurone layer) and their endogenous components (e.g., proteins, lipids, non-starch polysaccharides, and polyphenols), confirming that they are crucial factors determining the digestive properties of whole grains. Furthermore, it analyzes the changes in hierarchical structures and chemical components under processing conditions. The review further elaborates how endogenous components, including proteins, lipids, non-starch polysaccharides, and polyphenols, modulate starch digestion behavior by regulating gelatinization characteristics, molecular structure, digestive enzyme activity, and substrate accessibility. This review provides a scientific basis for the precise processing and nutritional modulation of whole grain products.

Key words: whole grains; structural barrier; endogenous components; starch; digestion

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