果胶和葡萄糖对冻干重组果实质地和微观结构的影响——以果胶-葡萄糖海绵为模型

IF 5.6 3区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Shuhan Feng, Jinfeng Bi, Youchuan Ma, Jianyong Yi
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引用次数: 0

摘要

本研究在两个货架温度(−20°C和60°C)下制备了一系列具有不同果胶-葡萄糖浓度的冻干海绵,以模拟果胶和葡萄糖在冻干重组水果产品微观结构和质地特性中的特定作用。果胶多糖主要负责冷冻干燥后支架的构建。当果胶含量大于1.5%时,可以显著抑制结构坍塌的发生。小分子葡萄糖主要负责海绵的机械强度。当葡萄糖从4%增加到12%时,海绵系统的机械强度从400克增加到1400克。具有更高果胶含量(>;3.0%)的海绵可以防止具有更高糖含量(12%)或更高货架温度(60°C)的系统的结构收缩,这表明通过添加果胶含量可以在高货架温度下实现无收缩冷冻干燥。
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 pectin and glucose on the texture properties and microstructures of freeze-dried restructured fruits: Pectin-glucose sponge as a model

Effects of pectin and glucose on the texture properties and microstructures of freeze-dried restructured fruits: Pectin-glucose sponge as a model

This study prepared a series of freeze-dried sponges with different pectin-glucose concentrations at two shelf temperatures (−20 °C and 60 °C) to simulate the specific roles of pectin and glucose in the microstructure and textural properties of freeze-dried restructured fruit products. Pectin polysaccharide is mainly responsible for the construction of scaffolds after freeze-drying. When the content of pectin is more than 1.5% pectin, the occurrence of structural collapse could be significantly inhibited. The small molecule glucose is mainly responsible for the mechanical strength of the sponges. When the glucose increases from 4% to 12%, the mechanical strength of the sponge systems rises from 400 to 1400 g. Sponges with higher pectin content (>3.0%) could prevent the structural shrinkage of systems with greater sugar content (12%) or higher shelf temperature (60 °C), suggesting a possibility to achieve shrink-free lyophilization at high shelf temperature by adding the content of pectin.

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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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