MOLECULAR AND BIOLOGICAL FACTORS AFFECTING SKELETAL MUSCLE CELLS AFTER SLAUGHTERING AND THEIR IMPACT ON MEAT QUALITY: A MINI REVIEW

K.M. PARK, A.B. PRAMOD, J.H. KIM, H.S. CHOE, I.H. HWANG
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Abstract

ABSTRACT

The postmortem factors like rate of glycolysis and muscle shortening have a major role on meat characteristics and these have been efficiently manipulated by methods like chilling regime, electrical stimulation and different hanging. These methods have been optimized with time leaving a little scope for further improvement. During the harvesting process of meat there is a generalized cell death often referred to as necrosis or apoptosis. This process of cell death has been well studied with respect to various physiological functions in vivo but its role in postmortem meat quality has received little attention. It is mainly regulated by caspases and also probably by calpains, cathepsins, proteasomes, lysosomal enzymes and other molecules, antioxidants and stress proteins. The term apoptosis appears to be more appropriate as evident by involvement of the enzyme systems and cell shrinkage. Further, examination of postmortem events effecting meat quality and correlate them to understand the cell death process may reveal the possible involvement of both apoptosis and necrosis processes, one preceding the other. This article is an attempt to review the apoptotic process of various cell lines and possible implication for muscle cells after slaughter and meat quality control.

PRACTICAL APPLICATIONS

Understanding the intricate biochemical mechanisms governing cell death processes after slaughter may help us provide better solutions for preslaughter animal handling and postslaughter interventions to manage meat toughness. Investigations on these tracks would distinguish muscle cell death processes after slaughter from apoptosis or necrosis, and consequently may lead to enhanced technological meat quality as available literature suggests that a number of molecules such as caspase family are likely to be involved in cell death process after slaughter and also in meat tenderization.

屠宰后影响骨骼肌细胞的分子生物学因素及其对肉质的影响
摘要糖酵解速率和肌肉缩短等死后因素对肉的特性起着重要作用,这些因素已通过冷藏、电刺激和不同的悬挂方式得到有效控制。随着时间的推移,这些方法已经得到了优化,留下了一些进一步改进的余地。在肉的收获过程中,会出现广泛的细胞死亡,通常被称为坏死或凋亡。这种细胞死亡过程在体内的各种生理功能方面已经得到了很好的研究,但它在死后肉质中的作用却很少受到关注。它主要由胱天蛋白酶调节,也可能由钙蛋白酶、组织蛋白酶、蛋白酶体、溶酶体酶和其他分子、抗氧化剂和应激蛋白调节。“细胞凋亡”一词似乎更合适,这一点从酶系统和细胞收缩的参与中可以明显看出。此外,对影响肉质的死后事件进行检查,并将其关联起来,以了解细胞死亡过程,可能揭示细胞凋亡和坏死过程的可能参与,这两个过程一个先于另一个。本文试图综述各种细胞系的凋亡过程,以及对屠宰后肌肉细胞和肉质控制的可能意义。实际应用了解屠宰后控制细胞死亡过程的复杂生化机制可能有助于我们为屠宰前动物处理和屠宰后干预提供更好的解决方案,以管理肉类的韧性。对这些轨迹的研究将区分屠宰后的肌肉细胞死亡过程与细胞凋亡或坏死,因此可能会提高技术肉质,因为现有文献表明,caspase家族等多种分子可能参与屠宰后的细胞死亡过程以及肉的嫩化。
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Journal of Muscle Foods
Journal of Muscle Foods 工程技术-食品科技
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