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中国精品科技期刊2020
王青杨,苗妙,李树森,等. 低聚木糖-牛乳凝胶的物性及形成机制研究[J]. 食品工业科技,2023,44(21):54−60. doi: 10.13386/j.issn1002-0306.2022120104.
引用本文: 王青杨,苗妙,李树森,等. 低聚木糖-牛乳凝胶的物性及形成机制研究[J]. 食品工业科技,2023,44(21):54−60. doi: 10.13386/j.issn1002-0306.2022120104.
WANG Qingyang, MIAO Miao, LI Shusen, et al. Physical Properties and Formation Mechanism of Xylooligosaccharides-Milk Gel[J]. Science and Technology of Food Industry, 2023, 44(21): 54−60. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022120104.
Citation: WANG Qingyang, MIAO Miao, LI Shusen, et al. Physical Properties and Formation Mechanism of Xylooligosaccharides-Milk Gel[J]. Science and Technology of Food Industry, 2023, 44(21): 54−60. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022120104.

低聚木糖-牛乳凝胶的物性及形成机制研究

Physical Properties and Formation Mechanism of Xylooligosaccharides-Milk Gel

  • 摘要: 本文旨在探究低聚木糖-牛乳体系在加热过程中的物性变化和凝胶形成机制。为此,首先通过感官评价方法对低聚木糖-牛乳凝胶的制备条件进行优化。在最优低聚木糖添加量下,研究了低聚木糖-牛乳体系在加热过程中pH、色度、凝胶强度、持水力及流变学参数的变化,并利用溶解度测定、粒径测定及聚丙烯酰胺凝胶电泳方法分析了凝胶形成机制。实验结果显示,低聚木糖-牛乳凝胶在低聚木糖添加量为5%(w/v),加热6 h时获得了最高感官评分。随着加热时间的延长,低聚木糖-牛乳体系的pH降低(8 h时为5.40),凝胶强度升高(8 h为144.4 g),体系在加热2 h后即产生类固体特性(G′>G′′);持水力先增大(加热6 h为53.1%)后降低(8 h为49.1%)。粒径分析和聚丙烯酰胺凝胶电泳结果表明,牛乳蛋白在加热后发生聚集。扫描电镜(SEM)结果显示,体系在加热后形成凝胶网络结构。溶解度分析结果表明,离子键是促使蛋白聚集并形成凝胶网络的主要作用力,在不同加热时间样品中的贡献率在46.8%至66.3%之间;疏水相互作用和氢键的贡献较小。随着加热时间的延长,离子键等非共价键的总贡献逐渐减少,这可能与美拉德相关共价键的形成有关。综上,本研究表明低聚木糖可以促进牛乳形成热凝胶,这一特性有望应用于相关产品的研发。

     

    Abstract: The aim of this study was to investigate the changes in the physical properties and gelation mechanism of xylooligosaccharides (XOS)-milk system during heat treatment. Firstly, the preparation conditions of XOS-milk gels were optimized using sensory evaluation. At the optimal XOS concentration, the changes in pH, color, gel strength, water-holding capacity, and rheological parameters of the XOS-milk system were studied during heat treatment. The gelation mechanism was analyzed by using solubility, particle size, and polyacrylamide gel electrophoresis analysis. The results showed that the XOS-milk gel was evaluated to be the highest sensory score at an XOS addition level of 5% (w/v) for 6 h of heat treatment. The pH of the XOS-milk system decreased with the increase of heating time (pH5.40 at 8 h), and the gel strength increased (144.4 g at 8 h). The system exhibited solid-like properties (G'>G'') after heat treatment for 2 h. The water-holding capacity initially increased (53.1% at 6 h) and then decreased (49.1% at 8 h) with prolonged heat treatment. Particle size and polyacrylamide gel electrophoresis analysis showed that milk proteins aggregated after heat treatment. The formation of gel network structure was observed using the scanning electron microscope (SEM). The solubility analysis showed that ionic bonds were the main driving force for protein aggregation and gel network formation, which contributed from 46.8% to 66.3% in samples of different heating time, while hydrophobic interactions and hydrogen bonds displayed the less contribution. As the heat treatment being prolonged, the total contribution of non-covalent bonds such as ionic bonds gradually decreased, which may be related to the formation of Maillard-related covalent bonds. Therefore, XOS promoted the formation of the heat-induced milk gel and its properties might have the potential to be used for the development of new milk products.

     

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