Pasting Behavior and Viscoelastic Properties of Fresh, Chilled, and Rehydrated Freeze-Dried Gel Beads from Blends of Tapioca Flour, Soy Flour, and Cane Sugar

Q3 Health Professions
Nattagan Chantagith, Natnaree Katkaew, P. Rattanapitigorn
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Abstract

Abstract An extreme vertices design for a mixture of three components was used to establish the proportions of tapioca flour (50% to 100% w/w), soy flour (0% to 50% w/w), and cane sugar (0% to 10% w/w) mass fractions in a food gel bead system. Thus, nine compositions were prepared and analyzed. The pasting profiles of the mixtures were studied using a Rapid Visco Analyzer. The texture profiles of fresh, chilled, and rehydrated freeze-dried gel beads were studied using a texture analyzer. Increasing the proportion of soy flour in the range of 11.25% to 50.00% w/w decreased the peak viscosity, breakdown, final viscosity, and setback of mixed flour. Tapioca flour in the proportion of 81.25% to 100.00% w/w recorded the lowest hardness of fresh gel beads (92.00 to 283.00 g). Soy flour in the proportion of 11.25% to 50.00% w/w exhibited lower texture profiles (hardness, chewiness, and gumminess) than tapioca flour in gel beads for both chilled and rehydrated freeze-dried gel beads. Significant relationships were found among pasting profiles of the flour mixtures and texture profiles of fresh, chilled, and rehydrated freeze-dried gel beads, implying a functional role for soy flour in food gel beads. In conclusion, soy flour can act as an anti-retrogradation agent for the gel beads both in chilled (stored at 4°C for 7 days) and freeze-dried conditions. A small amount of cane sugar does not affect the inhibition of starch retrogradation in the gel bead system. Keywords: Anti-retrogradation, Food gel bead, Pasting profile, Soy flour, Tapioca flour, Texture profiles
由木薯粉、大豆粉和蔗糖混合而成的新鲜、冷藏和再水合冷冻干燥凝胶珠的糊化行为和粘弹性
摘要使用三种成分混合物的极端顶点设计来确定食品凝胶珠系统中木薯粉(50%-100%w/w)、大豆粉(0%-50%w/w)和蔗糖(0%-10%w/w)质量分数的比例。因此,制备并分析了九种组合物。使用快速粘度分析仪研究了混合物的粘贴特性。使用质地分析仪研究了新鲜、冷冻和再水合冻干凝胶珠的质地特征。将大豆粉的比例增加到11.25%-50.00%w/w的范围内,降低了混合粉的峰值粘度、分解、最终粘度和回缩。81.25%至100.00%w/w的木薯粉记录了新鲜凝胶珠的最低硬度(92.00至283.00g)。在冷冻和再水合的冻干凝胶珠中,11.25%-50.00%w/w比例的大豆粉在凝胶珠中表现出比木薯粉更低的质地特征(硬度、耐嚼性和粘性)。面粉混合物的糊化特性与新鲜、冷冻和再水合冻干凝胶珠的质地特性之间存在显著关系,这表明大豆粉在食品凝胶珠中具有功能作用。总之,在冷冻(在4°C下储存7天)和冻干条件下,大豆粉都可以作为凝胶珠的抗凝剂。在凝胶珠体系中,少量的蔗糖不影响对淀粉凝沉的抑制。关键词:抗凝性,食品凝胶珠,糊化特性,大豆粉,木薯粉,质地特性
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来源期刊
Chiang Mai University journal of natural sciences
Chiang Mai University journal of natural sciences Health Professions-Health Professions (miscellaneous)
CiteScore
1.70
自引率
0.00%
发文量
67
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