温柔
持水量
机制(生物学)
凝结
食品科学
化学
环境科学
动物科学
生物
热力学
物理
量子力学
作者
Jiqiang Li,Qiantong Wang,Rongrong Liang,Yanwei Mao,David Hopkins,Ke Li,Xiaoyin Yang,Xin Luo,Lixian Zhu,Yimin Zhang
出处
期刊:Meat Science
[Elsevier]
日期:2024-05-16
卷期号:215: 109540-109540
被引量:1
标识
DOI:10.1016/j.meatsci.2024.109540
摘要
In order to explore the effect of sub-freezing storage on water holding capacity and tenderness of beef, four treatments were compared in this study: sub-freezing (-7 °C) fast sub-freezing (-38 °C until the core temperature achieved to -7 °C), superchilling (-1 °C) and fast frozen (-38 °C until the core temperature achieved to -18 °C) with the latter two treatments serving as the controls. The differences in muscle fiber structure, water distribution, protein oxidation and cytoskeletal protein degradation were studied. The results demonstrated that compared with other treatments, the fast sub-freezing treatment resulted in less structural damage to the muscle fibers and had better water holding capacity. Both sub-freezing and fast sub-freezing treatments inhibited protein oxidation compared with superchilling, but the former treatment's level of protein oxidation was higher than that in fast sub-freezing treatment during long-term storage (42 weeks). In addition, the structural proteins in the sub-freezing and fast sub-freezing treatments underwent faster degradation during long-term storage and therefore the meat was more tender compared with the fast frozen treatment. The results indicate that the fast sub-freezing treatment can be potentially applied in beef storage.
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