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Hydrodynamic cavitation induced fabrication of soy protein isolate–polyphenol complexes: Structural and functional properties

Fengyan Wei, Xian’e Ren, Yongchun Huang, Ning Hua, Yuting Wu, Feng Yang

2025Current Research in Food Science22 citationsDOIOpen Access PDF

Abstract

The combination of polyphenols and protein can improve the functional characteristics of protein. How to effectively promote the binding of polyphenols to protein is still a difficult topic. In this study, hydrodynamic cavitation (HC) was used to induce the fabrication of complexes between soy protein isolate (SPI) and different polyphenols (tannic acid (TA), chlorogenic acid (CGA), ferulic acid (FA), caffeic acid (CA), and gallic acid (GA)). The effect of HC on the interaction between polyphenols and SPI was investigated, and the structural and functional properties of the formed complexes were characterized. The results showed that HC treatment led to SPI structure stretching, which increased the binding level of polyphenols, especially that of TA (increased from 35.08 ± 0.73% to 66.42 ± 1.35%). The increase in ultraviolet–visible absorption intensity and quenching of fluorescence intensity confirmed that HC enhanced the interaction between polyphenols and protein. HC treatment reduced the contents of free sulfhydryl and amino groups in SPI–polyphenol complexes and altered their Fourier transform infrared spectroscopy, indicating that HC treatment promoted the formation of C–N and C–S bonds between SPI and polyphenols. Circular dichroism spectroscopy indicated that HC treatment altered the secondary structure of SPI–polyphenol complexes, inducing an increase in α-helix and random coil contents and a decrease in β-sheet content. Regarding functional properties, HC treatment improved the emulsification and antioxidant activity of SPI–polyphenol complexes. Therefore, HC is an effective technique for promoting the binding of polyphenols to protein. • Hydrodynamic cavitation (HC) induced fabricating SPI–polyphenol complexes. • HC improved the binding level of polyphenol and SPI. • HC decreased free sulfhydryl and amino groups contents of complexes. • The secondary structure of complexes was altered with HC. • Complexes fabricated by HC exhibited superior antioxidant and emulsifying properties.

Topics & Concepts

Soy proteinCavitationFabricationPolyphenolChemistryFood scienceChemical engineeringMaterials scienceBiochemistryThermodynamicsEngineeringMedicinePhysicsAntioxidantPathologyAlternative medicineMagnetic and Electromagnetic EffectsProteins in Food SystemsMicrobial Inactivation Methods