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Ultrasound coupled with weak alkali cycling-induced exchange of free sulfhydryl-disulfide bond for remodeling interfacial flexibility of flaxseed protein isolates

Jing Yang, Yuqing Duan, Haihui Zhang, Fenghong Huang, Chuyun Wan, Chen Cheng, Lei Wang, Dengfeng Peng, Qianchun Deng

2023Food Hydrocolloids127 citationsDOIOpen Access PDF

Abstract

The limitation of plant protein adsorbed on the oil/water interface is more rigid than milk protein . Herein, the interfacial rigidity or flexibility of flaxseed protein isolate (FPI) was regulated by ultrasound coupled with weak alkali cycling (pH 7 → 10→7) treatment. The interfacial properties of FPI during the treatment were investigated by interfacial rheology, Lissajous plots, cryo-SEM, and Langmuir-Blodgett films combined AFM tests. Compared with FPI, UFPI-10 (FPI treated by ultrasound coupled with pH 10 cycling) possessed higher emulsification stability (ESI∼308.20 min), increasing by 1.74 times. Three stages of emulsifying property enhancement were obtained. First, FPI aggregates had more disulfide bond (-S-S-). After treated by ultrasound coupled with weak alkali cycling, the protein underwent a deaggregation-reassembly process, resulting in the breakage of -S-S- and the exposure of internal sulfhydryl group (-SH) as well as hydrophobic group on the protein surface. These induced the significant improve of -SH and surface hydrophobicity ( H 0 ) as well as the decrease of particle size and -S-S- (P < 0.05). Second, the above altered structural properties endowed protein faster adsorption rate onto the interface. The -SH on the surface of adsorbed proteins could convert to -S-S-, leading to form an interfacial flexible layer with high viscoelastic modulus and mechanical behavior. Third, this tight and solid-like interfacial film affirmed by the cryo-SEM and interfacial dilatational rheological results could protect emulsion droplet against flocculation, coalescence, and disproportionation, thus contributing to good emulsification stability. We conformed that the exchange between -S-S- and -SH played an important role in regulating the interfacial flexibility.

Topics & Concepts

ChemistryEmulsionAdsorptionChemical engineeringCoalescence (physics)Protein adsorptionRheologySurface tensionChromatographyMaterials scienceOrganic chemistryComposite materialPhysicsQuantum mechanicsEngineeringAstrobiologyProteins in Food SystemsPickering emulsions and particle stabilizationMicroencapsulation and Drying Processes