淀粉凝胶食品在烹饪科学中的应用:天然淀粉和变性淀粉

Q4 Engineering Journal of Biorheology Pub Date : 2021-01-01 DOI:10.17106/JBR.35.29
K. Hirao, T. Kondo, K. Kainuma, Setsuko Takahashi
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引用次数: 2

摘要

本文从烹饪科学的角度综述了淀粉凝胶食品:warabi麻糬(日本传统的甜凝胶)和奶油冻为硬凝胶,糕点奶油/蛋奶冻为软凝胶。由于瓦拉比麻糬是由昂贵的瓦拉比淀粉制成的,因此测试了几种淀粉的物理化学性质,作为可能的替代品。与目前常用的甘薯、马铃薯、木薯和葛粉淀粉相比,西米淀粉具有很高的替代潜力。西米淀粉具有与甘薯和马铃薯淀粉相当的凝胶弹性,与木薯淀粉相当的高凝胶黏性和低凝胶黏性,与葛根淀粉相当的凝胶硬度。为提高瓦拉比麻糬的质量,对其制备方法进行了优化。例如,加入海藻糖抑制瓦拉比麻糬中的淀粉降解,加入改性小麦淀粉稳定其凝胶品质。同时,瓦拉比麻糬主要是淀粉、糖和水的混合物,而大多数淀粉凝胶食品是主要成分和次要成分(如蛋白质和脂肪)的混合物。为了提高牛奶质量,用分离大豆蛋白或豆奶粉代替牛奶。为了最大限度地提高白糖的理化性能和口感,采用舍夫勒单纯形晶格设计法对淀粉、蛋白质和脂肪的配比进行了优化,其三角形图清晰地显示了高品质白糖的最佳配比。对于糕点奶油/蛋奶冻,由于其融化口感决定了整体质量偏好,因此建立了评估融化口感的方法。随后,研究了变性淀粉在糕点奶油/蛋奶冻中的适用性,以使其质地适合每种食品制备。根据改性淀粉的理化性质,对糕点奶油/蛋奶冻的制备方法进行了调整,以适应不同的食品。
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Starch gel foods in cookery science: application of native starch and modified starches
This paper reviews starch gel foods from the perspective of cookery science: warabi mochi (traditional sweet gel in Japan) and blancmange as hard gels and pastry cream/custard as a soft gel. Since warabi mochi is made from expensive warabi starch, physiochemical properties of several starches were tested as possible replacers. High potential of sago starch as a replacer was demonstrated as compared with sweet potato, potato, tapioca, and kudzu starches which are currently used as the replacers. Sago starch showed excellent characteristics in gel elasticity comparable to sweet potato and potato starches, high gel cohesiveness and low gel adhesiveness comparable to tapioca starch, and gel hardness comparable to kudzu starch. Toward quality improvements of warabi mochi , its preparation methods were also optimized. For instance, trehalose was added to suppress starch retrogradation in warabi mochi , and modified wheat starch was added to stabilize its gel quality. Meanwhile, warabi mochi is primarily a mixture of starches, sugars, and water, whereas most starch gel foods are mixtures of the primary ingredients and secondary ingredients such as proteins and fats. As for the blancmange, milk was replaced with soy protein isolate or soy milk powder for its quality improvement. For maximizing the physicochemical properties as well as taste, ratio of starch, protein, and fat was optimized by Scheffé’s simplex lattice design method: its triangular diagram clearly showed its optimal ratio for blancmange of high quality. Regarding pastry cream/custard, since its melting mouthfeel governs overall quality preference, methods to evaluate the melting mouthfeel were established. Thereafter, applicability of modified starches to pastry cream/custard was investigated to fit its texture to each food preparation. Based on physicochemical properties of the modified starches, pastry cream/custard preparation was adjusted to each of various food products.
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来源期刊
Journal of Biorheology
Journal of Biorheology Engineering-Mechanical Engineering
CiteScore
0.50
自引率
0.00%
发文量
5
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