Characterization of the Hydrogel-Binding Mechanism of Phellinus linteus Polysaccharides and Polymerized Whey Protein by SR-IR Technology and Its Application in Goat Milk Yogurt
Qingyun Wang, Xingyu Zhang, Yilong Li, Huiyu Xiang, Weibing Tao, Jiafu Wu, Jiping Fan, Huangchen Xi, Lin Wang, Juncai Hou, Xiaomeng Sun

TL;DR
This study explores how combining a natural mushroom polysaccharide with whey protein improves yogurt texture and stability.
Contribution
A novel use of Phellinus linteus polysaccharides to enhance whey protein hydrogels in dairy products is demonstrated.
Findings
PLP increased hydrogel particle size and zeta potential, indicating improved stability.
SR-IR analysis showed hydrogen bonding and structural changes in the PWP-PLP composite.
Yogurt with PWP-PLP had better water-holding and texture properties.
Abstract
The development of natural biopolymers to improve the structural and textural defects of whey protein in acidic dairy products is of great interest. This study investigated the interaction between Phellinus linteus polysaccharides (PLPs) and heat-induced polymerized whey protein (PWP), and its application in goat milk yogurt. The physicochemical properties and interaction mechanisms of PWP-PLP composite hydrogels (with 1–4% PLP) were characterized using particle size, DSC, and synchronous rheology and Fourier transform infrared spectroscopy. The results show that PLP increased hydrogel particle size, absolute zeta potential (from −34.98 mV to −42.26 mV), and denaturation temperature (from 102.33 °C to 112.57 °C), indicating the enhanced stability. SR-IR analysis revealed intensified hydrogen bonding and protein secondary structure rearrangement. Incorporated into yogurt, the optimal…
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Taxonomy
TopicsProteins in Food Systems · Probiotics and Fermented Foods · Polysaccharides Composition and Applications
