Mechanism of synergistic ultrasound-ethanol treatment in salted egg yolk: Rapid texture optimization and flavor enhancement.
Ling Ma, Danrong Yu, Ni Zhang, Yaogui Sun, Xiaoxia Ren, Dan Zheng, Chunyou Liu, Xiaoyu Zhang, Zhihui Yu
Abstract
Open AccessConventional salted duck egg yolk (SEY) suffers from hard-core texture and undesirable flavor. This study aims to enhance SEY quality and elucidate the underlying mechanisms via high-intensity ultrasound (HIU)-assisted ethanol treatment. The results revealed that optimal 200 W treatment lowered hardness while increasing chewiness (2.22 g) and adhesiveness (0.67 g·sec), with oil exudation and sandiness rising by 59.97 % and 50.78 % respectively. These improvements correlated with elevated surface hydrophobicity (+13.15 %) and free sulfhydryl content (+65.38 %) compared to those in SEY. Structural analysis revealed HIU accelerated moisture transitions, formed microporous networks, and altered protein secondary structures with increased β-turns and decreased α-helix/random coils. Volatile profiling identified 87 compounds, where cavitation-driven lipid oxidation significantly increased key flavor enhancers: ethyl decanoate (+83.78 %) and hexyl hexanoate (+381.08 %). These synergistic modifications produced superior sensory qualities (>70 points). In conclusion, this study provides an efficient and practical solution to the textural and flavor challenges in conventional SEY production.