Enhancement of Pea–Oat Composite Protein Gel Properties Through Ultrasound Treatment Affects Structural and Functional Characteristics
Sai Wang, Mengxiao Li, Guimei Dong, Ruiling Shen, Jilin Dong, Yunlong Li

TL;DR
This study shows that ultrasound treatment improves the structure and function of pea-oat protein gels, making them more elastic and thermally stable.
Contribution
The novel use of ultrasound to enhance plant-based composite protein gels is demonstrated with structural and functional improvements.
Findings
Ultrasonic treatment at 400 W for 30 min improved water-holding capacity, gel strength, and surface hydrophobicity of POPG.
Rheological analysis showed increased storage modulus and viscoelasticity in treated POPG samples.
Ultrasonication increased β-sheet content and thermal stability, resulting in a more compact and firm gel structure.
Abstract
With increasing attention to health, plant protein products have gained significant market potential due to their growing consumer demand. This study researches the influence of ultrasonic treatment on the structure and function of pea–oat composite protein gel (POPG) to enhance its elasticity and thermal stability. The ultrasonic treatment parameters were regulated to power (200–600 W for 30 min) and ultrasonic time (20–40 min at 400 W) during the preparation of POPG, and the properties and structure, including gel strength, rheological analysis, water-holding capacity (WHC), thermal characteristics, fluorescence performance, and microstructure, were further evaluated. The results showed that the POPG samples exhibited optimal values in WHC, gel strength, surface hydrophobicity, free sulfhydryl amount, and endogenous fluorescence at 400 W ultrasonic for 30 min compared with the…
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Taxonomy
TopicsProteins in Food Systems · Microencapsulation and Drying Processes · Polysaccharides Composition and Applications
