Effects of the structure and interaction force of phytosterol/whey protein isolate self-assembly complex on phytosterol digestion properties

[Display omitted] •This research reveals the correlation among protein secondary structure, strength of the interaction in phytosterol /WPI complex, and the digestion properties of phytosterol.•The content of β-turns in WPI secondary structure plays an important role in maintaining hydrogen bonds be...

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Bibliographic Details
Published in:Food chemistry 2023-03, Vol.403, p.134311-134311, Article 134311
Main Authors: Zhao, Tian, Yang, Bowen, Ji, Shengyang, Luo, Jingyang, Liu, Yan, Zhong, Yongheng, Lu, Baiyi
Format: Article
Language:English
Subjects:
Bioaccessibility
Correlation analysis
Interaction force
Phytosterol
Self-assembly complex
Whey protein isolate
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Summary:[Display omitted] •This research reveals the correlation among protein secondary structure, strength of the interaction in phytosterol /WPI complex, and the digestion properties of phytosterol.•The content of β-turns in WPI secondary structure plays an important role in maintaining hydrogen bonds between PS and WPI.•High strength of the hydrogen bonds interaction could enhance phytosterol encapsulation efficiency.•The hydrogen bond strength between PS and WPI is positively correlated with PS release rate and bioaccessibility in significance.•This study presents useful information to prepare and optimize PS-protein complex structure in order to enhance PS absorption. Phytosterol (PS)/whey protein isolate (WPI) self-assembly complex was formed with different PS:WPI mass ratios (from 1:1 to 1:15) to reveal the relationship of interaction mechanism in PS/WPI complex, WPI secondary structure, and PS digestion properties. The sample with 1:5 mass ratio had the strongest hydrogen bonds and the largest encapsulation efficiency (EE). Circular dichroism analysis indicated that the mass ratio of PS/WPI complex had a vital effect on WPI secondary structure. The content of β-sheet increased with the increase in PS ratio, which, in turn, inhibited the release rate and bioaccessibility of PS. The β-turn of WPI was positively correlated with hydrogen bonds in the complex, thus playing a significant role in increasing EE, promoting PS release, and even further enhancing PS bioaccessibility in digestion simulation. These findings appeared to be promising for future applications in enhancing the bioaccessibility of phytosterol through specific structure in high-protein food systems.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2022.134311