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水力空化结合梯度添加芦丁改善大豆分离蛋白的功能性质OA

Hydrodynamic Cavitation Combined with Gradient Addition of Rutin Improves the Functional Properties of Soy Protein Isolate

中文摘要英文摘要

为获得具有抗氧化和乳化性的双功能大豆蛋白,采用水力空化结合梯度添加芦丁对大豆分离蛋白进行改性,分析大豆分离蛋白在改性前后理化、结构和功能性质的变化.结果表明,经水力空化处理后大豆分离蛋白表面疏水性升高,结构展开,活性基团暴露出来,致使其与芦丁的结合量显著增加(P<0.05).随着芦丁添加量的增加,大豆分离蛋白的紫外吸收增强,荧光强度降低且最大吸收峰红移,表面疏水性、游离巯基与氨基含量均下降,二级结构中的 α-螺旋、β-折叠和 β-转角含量降低,无规则卷曲含量增加.进一步分析抗氧化活性和乳化性发现,大豆分离蛋白经水力空化处理后再与芦丁结合形成的复合物表现出较好的抗氧化活性和乳化性.当芦丁添加量为 1 mg/mL,抗氧化活性中 DPPH 自由基清除率能由改性前的 77.80%±0.86%增加到 83.76%±0.65%,ABTS+自由基清除率由 53.09%±0.43%增加到 63.64%±0.53%,铁离子还原能力由 1.12±0.06增加到 1.29±0.12,乳化活性指数由 24.50±1.37 m2/g增加到 28.55±0.43 m2/g,乳化稳定性指数由 69.25±1.77 min增加到 88.75±1.65 min.由此可见,水力空化处理结合适量芦丁可有效改善大豆蛋白的功能性质,此为蛋白质改性提供了新的途径.

To obtain a bifunctional soy protein with antioxidant activity and emulsifying properties,soy protein isolate(SPI)was modified by combining hydrodynamic cavitation with gradient addition of rutin.The changes in physicochemical,structural,and functional properties of SPI before and after modification were analyzed.The results showed that after hy-drodynamic cavitation treatment,the surface hydrophobicity of SPI increased,its structure unfolded,and the active groups were exposed,leading to a significant increase in its binding capacity with rutin(P<0.05).As the addition amount of rutin increased,the ultraviolet absorption of SPI enhanced,while the fluorescence intensity decreased with a red shift in the max-imum absorption peak.The surface hydrophobicity,free thiol content,and free amino content all decreased.Furthermore,the contents of α-helix,β-sheet,and β-turn in the secondary structure decreased,while the content of random coil increased.Further analysis of antioxidant activity and emulsifying properties revealed that the conjugates formed by combing hydro-dynamic cavitation treated SPI with rutin exhibited enhanced antioxidant activity and emulsifying properties.When the addition amount of rutin was 1 mg/mL,in terms of antioxidant activity,the DPPH free radical scavenging capacity in-creased from 77.80%±0.86%(before modification)to 83.76%±0.65%,the ABTS+radical scavenging capacity increased from 53.09%±0.43%to 63.64%±0.53%,and the ferric reducing power increased from 1.12±0.06 to 1.29±0.12.In terms of emulsifying properties,the emulsification activity index increased from 24.50±1.37 m2/g to 28.55±0.43 m2/g,and the emul-sification stability index increased from 69.25±1.77 min to 88.75±1.65 min.Therefore,hydrodynamic cavitation treatment combined with appropriate amount of rutin could effectively improve the functional properties of soy protein,which provid-ed a new approach for protein modification.

刘昊天;杨锋;李静梅;任仙娥;张昆明

广西科技大学生物与化学工程学院,广西糖资源绿色加工重点实验室,广西柳州螺蛳粉工程技术研究中心,广西 柳州 545006广西科技大学生物与化学工程学院,广西糖资源绿色加工重点实验室,广西柳州螺蛳粉工程技术研究中心,广西 柳州 545006广西科技大学生物与化学工程学院,广西糖资源绿色加工重点实验室,广西柳州螺蛳粉工程技术研究中心,广西 柳州 545006广西科技大学生物与化学工程学院,广西糖资源绿色加工重点实验室,广西柳州螺蛳粉工程技术研究中心,广西 柳州 545006广西科技大学生物与化学工程学院,广西糖资源绿色加工重点实验室,广西柳州螺蛳粉工程技术研究中心,广西 柳州 545006

轻工纺织

水力空化芦丁大豆分离蛋白抗氧化活性乳化性

hydrodynamic cavitationrutinsoy protein isolateantioxidant activityemulsifying properties

《食品工业科技》 2026 (12)

1-11,11

国家自然科学基金地区科学基金项目(32360577)广西自然科学基金面上项目(2024GXNSFAA010386).

10.13386/j.issn1002-0306.2025100041

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