Fluorometric combination analysis of conformational changes in urea-induced unfolding of soybean protein isolates and their complexes with casein
Yangchao Gao, Yuchuan Li, Yifan Yang, Hongying He, Yanqiong Li, Shuhui Yu, Haiying Wang, Yuyu Zhang, He Liu

TL;DR
This study explores how casein interacts with soybean proteins to prevent misfolding and aggregation, using fluorescence analysis to reveal conformational changes during unfolding.
Contribution
The study identifies specific intermediates in soybean protein unfolding and their interaction with casein, offering new insights into protein functionality.
Findings
SPIs unfolding involves a molten globule intermediate, while SPI-casein complexes involve two intermediates.
Casein interaction with SPIs mainly occurs in the 7S fraction, as inferred from fluorescence and molecular docking.
Urea-induced conformational changes show distinct patterns in SPIs and their complexes with casein.
Abstract
Soybean proteins isolates (SPIs) could misfold to form amorphous aggregates after unfolding due to processing conditions, leading to a decrease in their solubility, and casein might be able to block the formation of amorphous aggregates. The turbidity curves showed that SPIs/7S/11S could maintain a soluble state in the presence of casein. The folding and unfolding processes of SPIs are not a single-step event. Fluorescence phase diagram method was utilized to analyze the unfolding process of SPIs and SPI-casein complexes. The results showed that there was one intermediate (molten globule, MG) in the unfolding process of SPIs, while there were two intermediates (dimer or trimer intermediates and MG) in that of SPI-casein complexes. Further attempts were made to explain the conformational changes of SPIs when binding with casein. The surface hydrophobicity index indicated that the…
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Taxonomy
TopicsProteins in Food Systems · Microencapsulation and Drying Processes · Food Allergy and Anaphylaxis Research
