Cryoprotective Effects of Tuna Skin Antifreeze Peptides on the Quality of Salmon Flesh During Low-Temperature Fluctuations
Zhe Xu, Ziyu Zhang, Zijin Qin, Tengfei Li, Zihao Zhang, Shuyu Zhou, Jianbo Sun, Tingting Li

TL;DR
This study shows that antifreeze peptides from tuna skin can protect salmon quality during freezing and thawing cycles, offering a natural preservation solution.
Contribution
The novel contribution is demonstrating the cryoprotective effects of tuna skin-derived antifreeze peptides on salmon flesh quality during temperature fluctuations.
Findings
Tuna skin-derived antifreeze peptides improved salmon texture, color, and water retention during freeze-thaw cycles.
Neutral protease-treated peptides preserved protein structure and inhibited oxidation better than other treatments.
Microstructural analysis showed better muscle fiber integrity in samples treated with neutral protease-derived peptides.
Abstract
Repetitive temperature fluctuations during transportation and storage promote ice crystal formation in salmon flesh, leading to protein denaturation, lipid oxidation, and quality loss. Tuna skin, a major by-product of tuna processing, is a potential source of antifreeze peptides (AFPs) but remains underutilized. This study examined the cryoprotective effects of tuna skin-derived AFPs on salmon cubes subjected to repeated freeze–thaw cycles. Cubes treated with AFPs from three groups of protein hydrolysates prepared using trypsin, pepsin, or neutral protease were evaluated for texture, color, water holding capacity (WHC), volatile odor profiles, protein conformation, biochemical indices, and microstructure. AFP treatment improved textural properties, maintained color stability, and reduced thawing, cooking, and centrifugal losses. The neutral protease-treated group exhibited the optimal…
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Taxonomy
TopicsProtein Hydrolysis and Bioactive Peptides · Meat and Animal Product Quality · Insect Utilization and Effects
