4.7 Article

Boosting emulsion properties: The role of β-sheet content and fibril length in soy protein isolate emulsions

Journal

FOOD HYDROCOLLOIDS
Volume 149, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2023.109513

Keywords

Emulsion stability; Secondary structures; Pickering emulsion; Plant proteins; Protein fibrils

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This study aimed to investigate the influence of beta-sheet content and fibril length on soy protein isolate emulsions. The results showed that samples with higher beta-sheet content and longer fibril length exhibited higher surface hydrophobicity and faster adsorption at the oil/water interface. These emulsions also had smaller droplet size, more homogeneous distribution, and higher viscosity. In terms of environmental stresses, the emulsion prepared with the highest beta-sheet content and longest fibril length demonstrated better stability compared to other emulsions. Overall, higher beta-sheet content and longer fibril length contributed to the stability of the emulsion through increased initial adsorption, formation of a thicker membrane coating, viscosity improvement, and enhanced surface hydrophobicity.
This study aimed to research the effects of beta-sheet content and fibril length in three categories ((low, medium, and high beta-sheet) and (short, medium, and long fibrils)) on soy protein isolate (SPI) emulsions. The highest surface hydrophobicity (H0) (27,600 +/- 100) was detected in the sample with the highest beta-sheet content and the longest fibril length. The interfacial tension presented that the sample with the highest beta-sheet content and longest fibril length could adsorb quickly at the oil (O)/water (W) interface. The emulsion stabilized by high beta-sheet content and long fibril length had a lower droplet size (202 +/- 4.35 nm) with more homogenous distri-bution and higher viscosity (8.75 +/- 0.13 cP) due to more entanglement. According to the environmental stresses results (i.e., various ionic strengths (0-400 mM), pH changes (2-9.5), thermal treatment, and 30 days of storage), the emulsion prepared by the sample with the highest beta-sheet content and the longest fibril length was more stable than other emulsions. Moreover, all emulsions were unstable against freeze-thaw treatment. Finally, it could be concluded that higher content of beta-sheet and longer fibril led to the stability of emulsion through higher initial absorption at the O/W interface, formation of a continuous and thicker membrane coating at the O/W interfaces, viscosity improvement, and H0 enhancement.

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