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中国精品科技期刊2020
游刚,张自然,李莹,等. 钙离子对仙草胶-鱼糜凝胶特性和体外消化性的影响[J]. 食品工业科技,2022,43(21):100−106. doi: 10.13386/j.issn1002-0306.2022020038.
引用本文: 游刚,张自然,李莹,等. 钙离子对仙草胶-鱼糜凝胶特性和体外消化性的影响[J]. 食品工业科技,2022,43(21):100−106. doi: 10.13386/j.issn1002-0306.2022020038.
YOU Gang, ZHANG Ziran, LI Ying, et al. Effects of Ca2+ on the Gel Properties and in Vitro Digestibility of HG-added Surimi Gel[J]. Science and Technology of Food Industry, 2022, 43(21): 100−106. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022020038.
Citation: YOU Gang, ZHANG Ziran, LI Ying, et al. Effects of Ca2+ on the Gel Properties and in Vitro Digestibility of HG-added Surimi Gel[J]. Science and Technology of Food Industry, 2022, 43(21): 100−106. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022020038.

钙离子对仙草胶-鱼糜凝胶特性和体外消化性的影响

Effects of Ca2+ on the Gel Properties and in Vitro Digestibility of HG-added Surimi Gel

  • 摘要: 仙草胶(Hsian-tsao gum, HG)具有良好的生物活性和促凝胶性,可改善鱼糜凝胶质构特性。Ca2+常用于鱼糜加工,而Ca2+对HG-鱼糜凝胶特性的影响尚不清晰。本研究以HG-鱼糜为对象,探讨Ca2+对HG-鱼糜凝胶感官特性、凝胶特性(凝胶强度、质构特性、凝胶形成作用力、微观结构)和体外消化性的影响,并进行相关性分析。结果表明,Ca2+减少HG-鱼糜凝胶二硫键、离子键和氢键作用力,增加其非二硫共价键和疏水作用力;添加3 mmol/kg Ca2+可改善HG-鱼糜凝胶感官特性(弹性、硬度和组织状态)、持水率、凝胶强度和质构特性(硬度、弹性),但降低凝胶溶解率和体外消化率;继续增大Ca2+浓度,HG-鱼糜凝胶结构孔隙率增大,凝胶溶解率和体外消化率增加,但凝胶强度、硬度、弹性和持水率均降低。经主成分分析,凝胶消化率与微观结构孔隙率和凝胶溶解率呈正相关性,与凝胶强度、硬度、弹性、持水率和凝胶形成作用力(二硫键、离子键、氢键)呈负相关性。因此,添加不同浓度Ca2+可设计不同感官特性和凝胶特性的HG-鱼糜凝胶,研究结果为HG-鱼糜凝胶产品多元化开发提供理论参考。

     

    Abstract: Hsian-tsao gum (HG) possessed of good biological activity and gel-promoting property could improve the textural properties of surimi gel. Ca2+ was commonly used in surimi products, however, effects of Ca2+ on the gel properties of HG-added surimi were not clear. The effects of Ca2+ on the sensory properties, gel properties (gel strength, texture properties, gel-forming forces and microstructure) and in vitro digestibility of HG-added surimi gel were therefore studied. The results showed that Ca2+ reduced the disulfide bonds, ionic bonds and hydrogen bonds, and increased the hydrophobic and non-disulfide covalent bonds, in which the disulfide bonds and non-disulfide covalent bonds determined the gel properties (gel strength, hardness and springiness) and microstructure, thus affecting the gel solubility and in vitro digestibility. Adding 3 mmol/kg Ca2+ could improve sensory properties (elasticity, hardness and tissue status), water holding capacity, gel strength and texture characteristics (hardness, springiness) of HG-added surimi gel, accompanied with the decrease in gel dissolution rate and in vitro digestibility. With the continuous increase of Ca2+ concentration, the structural porosity, gel dissolution rate and in vitro digestibility of HG-surimi gel were increased, but the gel strength, hardness, elasticity and water holding capacity were decreased. Based on PCA results, in vitro gel digestibility was positively correlated to microstructure porosity and gel solubility, but negatively correlated to gel strength, hardness, springiness, water holding capacity and gel forming force (disulfide bonds, ion bonds, hydrogen bonds). Therefore, the HG-added surimi gel with different sensory and structural properties could be designed by adding different concentrations of Ca2+, which provided a theoretical reference for the diversified development of HG-surimi gel products.

     

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