Exploring the relationship between starch structure and physicochemical properties: The impact of extrusion on highland barley flour

挤压 回生(淀粉) 直链淀粉 淀粉 食品科学 抗性淀粉 化学工程 粘度 水分 分离 吸水率 流变学 化学 材料科学 有机化学 复合材料 工程类
作者
Fei Ge,Yue Sun,Chenxi Yang,Weiwei Cheng,Zhenjiong Wang,Xifeng Xia,Di Wu,Xiaozhi Tang
出处
期刊:Food Research International [Elsevier BV]
卷期号:183: 114226-114226 被引量:43
标识
DOI:10.1016/j.foodres.2024.114226
摘要

Highland barley (HB) is an intriguing plateau cereal crop with high nutrition and health benefits. However, abundant dietary fiber and deficient gluten pose challenges to the processing and taste of whole HB products. Extrusion technology has been proved to be effective in overcoming these hurdles, but the association between the structure and physicochemical properties during extrusion remains inadequately unexplored. Therefore, this study aims to comprehensively understand the impact of extrusion conditions on the physicochemical properties of HB flour (HBF) and the multi-scale structure of starch. Results indicated that the nutritional value of HBF were significantly increased (soluble dietary fiber and β-glucan increased by 24.05%, 19.85% respectively) after extrusion. Typical underlying mechanisms based on starch structure were established. High temperature facilitated starch gelatinization, resulting in double helices unwinding, amylose leaching, and starch-lipid complexes forming. These alterations enhanced the water absorption capacity, cold thickening ability, and peak viscosity of HBF. More V-type complexes impeded amylose rearrangement, thus enhancing resistance to retrogradation and thermal stability. Extrusion at high temperature and moisture exhibited similarities to hydrothermal treatment, partly promoting amylose rearrangement and enhancing HBF peak viscosity. Conversely, under low temperature and high moisture, well-swelled starch granules were easily broken into shorter branch-chains by higher shear force, which enhanced the instant solubility and retrogradation resistance of HBF as well as reduced its pasting viscosity and the capacity to form gel networks. Importantly, starch degradation products during this condition were experimentally confirmed from various aspects. This study provided some reference for profiting from extrusion for further development of HB functional food and "clean label" food additives.
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