Effects of Two Composite Modifications on the Emulsifying and Potential Gel Properties of Palm Kernel Cake Glutelin-1
Peiyao Long, Ling Dang, Zhihui Wei, Zihao Zhang, Yajun Zheng, Hao Wang, Jiaying Pei

TL;DR
This study explores how modifying palm kernel cake glutelin-1 improves its ability to stabilize emulsions and its potential for gel formation.
Contribution
The paper introduces two novel composite modifications—ultrasonication-assisted gallic acid-binding and arabinose-glycosylation—to enhance PKCG-1's emulsifying properties.
Findings
Ultrasonication-assisted gallic acid-binding significantly improved emulsifying ability and stability through structural and electrostatic changes.
Arabinose-glycosylation enhanced solubility and emulsion stability by altering molecular structure and viscosity.
The emulsifying properties of PKCG-1 decreased with increasing pH, regardless of modification.
Abstract
Palm kernel cake glutelin-1 (PKCG-1) can be used as a novel emulsifier, contingent upon enhancement of its emulsifying functionality. This study investigated the influences and underlying mechanisms of ultrasonication-assisted gallic acid-binding or arabinose-glycosylation on the emulsifying properties of PKCG-1. The results demonstrated that ultrasonication-assisted gallic acid-binding yielded the greatest improvement in emulsifying ability (from 91.03 to 159.74 m2/g), attributed to a concomitant decrease in molecular mass (from 59.2 to 48.4 kDa); increases in hydrophobicity (from 681 to 770), random coil content, and interfacial adsorption capacity (from 102.62 to 244.41 μg/mL); a reduction in the emulsion’s loss factor; and augmentation of zeta-potential (from −39.55 to −65.96 mV) and centrifugal stability (from 57.80% to 84.14%). Alternatively, ultrasonication-assisted arabinose…
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Taxonomy
TopicsProteins in Food Systems · Polysaccharides Composition and Applications · Food composition and properties
