热处理对大豆 β-甘氨肽和甘氨肽胶凝和乳化性能的影响

Foods Pub Date : 2024-06-08 DOI:10.3390/foods13121804
Wei Zhang, Mengru Jin, Hong Wang, Siqi Cheng, Jialu Cao, Dingrong Kang, Jingnan Zhang, Wei Zhou, Longteng Zhang, Rugang Zhu, Donghong Liu, Guanchen Liu
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摘要

本研究调查了不同预热处理对不同 11S/7S 比例大豆蛋白的乳化和凝胶质构特性的影响。从脱脂豆粕中提取的 7S 和 11S 球蛋白以不同比例混合。对混合蛋白质进行预热(75 ℃、85 ℃ 和 95 ℃,5 分钟)或不预热,然后进行喷雾干燥或不喷雾干燥。富含 7S 部分的蛋白质混合物在 85 °C加热后溶解度呈显著下降趋势,而富含 11S 部分的蛋白质混合物在 95 °C加热后溶解度显著下降。令人惊讶的是,富含 7S 部分的蛋白质混合物的乳液稳定性指数(ESI)在 75 ℃ 加工过程中明显提高了两倍。这项研究表明,大豆蛋白的乳化能力与 11S/7S 比率呈负相关。对于富含7S或11S馏分的蛋白质混合物,喷雾干燥后其胶凝性、乳化活性指数(EAI)和ESI均无明显变化;然而,喷雾干燥后加热至85 °C时,其表面疏水性明显增强。这些发现深入揭示了各种加热过程中胶凝和乳化特性的变化,为生产具有更强乳化能力和胶凝特性的大豆蛋白配料提供了巨大的潜力。这些发现还有助于为标准化生产具有特定功能特性的大豆分离蛋白奠定理论基础。
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Effect of Thermal Treatment on Gelling and Emulsifying Properties of Soy β-Conglycinin and Glycinin
This study investigated the impact of different preheat treatments on the emulsifying and gel textural properties of soy protein with varying 11S/7S ratios. A mixture of 7S and 11S globulins, obtained from defatted soybean meal, was prepared at different ratios. The mixed proteins were subjected to preheating (75 °C, 85 °C, and 95 °C for 5 min) or non-preheating, followed by spray drying or non-spray drying. The solubility of protein mixtures rich in the 7S fraction tended to decrease significantly after heating at 85 °C, while protein mixtures rich in the 11S fraction showed a significant decrease after heating at 95 °C. Surprisingly, the emulsion stability index (ESI) of protein mixtures rich in the 7S fraction significantly improved twofold during processing at 75 °C. This study revealed a negative correlation between the emulsifying ability of soy protein and the 11S/7S ratio. For protein mixtures rich in either the 7S or the 11S fractions, gelling proprieties as well as emulsion activity index (EAI) and ESI showed no significant changes after spray drying; however, surface hydrophobicity was significantly enhanced following heating at 85 °C post-spray drying treatment. These findings provide insights into the alterations in gelling and emulsifying properties during various heating processes, offering great potential for producing soy protein ingredients with enhanced emulsifying ability and gelling property. They also contribute to establishing a theoretical basis for the standardized production of soy protein isolate with specific functional characteristics.
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