High-Temperature Gelation and Structural Characterisation of Commercial Yellow Pea, Faba Bean, and Mungbean Protein–Starch Systems
Niorie Moniharapon, Minqian Zhu, Lucinda Daborn, Sushil Dhital

TL;DR
This study explores how heating affects the gelation of yellow pea, faba bean, and mungbean proteins and how starch can improve their stability and strength at high temperatures.
Contribution
The study reveals how different plant proteins and starch substitution influence high-temperature gelation behavior and structural properties.
Findings
At 95 °C, mungbean showed the highest peak viscosity, while faba bean formed the strongest gel structure.
At 120 °C, faba bean and mungbean retained higher viscosity compared to yellow pea.
Starch addition improved viscosity stability and gel strength by limiting protein aggregation.
Abstract
The heating of plant proteins at high temperatures is often associated with phase separation due to the aggregation of protein fractions, resulting in weak or discontinuous gels in liquid processing systems. This study examined the high-temperature gelation behaviour of commercial yellow pea, faba bean, and mungbean protein isolates and evaluated how different levels of dry-fractionated starch substitution tailor viscosity development and final gel strength. To characterise structural changes during heating, pasting behaviour was evaluated at 95 °C and 120 °C using a high-temperature Rapid Visco Analyser, while gel strength, temperature-ramp rheology, and thermal transitions were measured using a texture analyser, rheometer, and Differential Scanning Calorimetry. At 95 °C, all systems showed controlled pasting behaviour, with yellow pea exhibiting moderate viscosity development and…
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Taxonomy
TopicsFood composition and properties · Proteins in Food Systems · Microencapsulation and Drying Processes
