热诱导魔芋葡甘露蛋白相互作用对小麦面团结构和流变特性的影响

IF 5.6 3区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Tingting Cui , Xiaodan Zhou , Wenjie Sui , Rui Liu , Tao Wu , Shuai Wang , Yan Jin , Min Zhang
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引用次数: 4

摘要

本文研究了魔芋葡甘露聚糖(KGM)与小麦蛋白相互作用所引起的结构变化对加热阶段面团性质的影响。从分子量、游离巯基含量、二级结构和热稳定性等方面比较研究了KGM对面筋热聚合过程的影响,分析了KGM对小麦面团结构和流变学性能随加热温度升高的影响。结果表明:KGM提高了面筋蛋白的平均分子量、β-片/β-转比和变性温度,降低了游离巯基含量;KGM可能通过干扰巯基交换反应和热变性来促进面筋网络的形成和稳定性。热处理后的面团结构被强化为致密的网状结构,呈现出弹性增加、回弹性、弹性、黏结性和咀嚼性等质地性能提高的特点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of thermal-induced konjac glucomannan-protein interaction on structural and rheological properties of wheat dough

Effects of thermal-induced konjac glucomannan-protein interaction on structural and rheological properties of wheat dough

This work is dealt with how structural changes induced by konjac glucomannan (KGM) interacting with wheat protein contribute to dough properties upon the heating stage. It comparatively investigated the effects of KGM on gluten thermal-polymerization process from molecular weight, free sulfhydryl content, secondary structure and thermal stability, and then analyzed KGM-induced changes of structural and rheological properties of wheat dough with heating temperature increased. Results showed that KGM increased the average molecular weight, the β-sheet/β-turn ratio and denaturation temperature of gluten protein while decreased the content of free sulfhydryl groups. It was likely that KGM promoted the formation and stability of gluten networks upon heating by interfering sulfydryl interchange reactions and thermal denaturation. Dough structure was thus strengthened to a compact network and presented the increased elasticity and the raised resilience, springiness, cohesiveness and chewiness of textural properties by heating treatment.

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来源期刊
Food Structure-Netherlands
Food Structure-Netherlands Chemical Engineering-Bioengineering
CiteScore
7.20
自引率
0.00%
发文量
48
期刊介绍: Food Structure is the premier international forum devoted to the publication of high-quality original research on food structure. The focus of this journal is on food structure in the context of its relationship with molecular composition, processing and macroscopic properties (e.g., shelf stability, sensory properties, etc.). Manuscripts that only report qualitative findings and micrographs and that lack sound hypothesis-driven, quantitative structure-function research are not accepted. Significance of the research findings for the food science community and/or industry must also be highlighted.
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