Electrical stimulation to improve meat quality: Factors at interplay, underlying biochemical mechanisms and a second look into the molecular pathways using proteomics

IF 7.1 1区 农林科学 Q1 Agricultural and Biological Sciences Meat Science Pub Date : 2024-09-12 DOI:10.1016/j.meatsci.2024.109663
Mohammed Gagaoua , Nuria Prieto , David L. Hopkins , Welder Baldassini , Yimin Zhang , Oscar López-Campos , Marzia Albenzio , Antonella della Malva
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Abstract

Ensuring consistent beef eating quality is paramount for meeting consumer demands and sustaining the meat industry. Electrical stimulation (ES) is a post-slaughter intervention used to accelerate post-mortem glycolysis, to avoid cold shortening, to control the tenderization rate of meat through sophisticated physical, chemical and biochemical mechanisms including proteolysis, to improve beef tenderness and to achieve normal pHu that might lead to positive impact on color. This review comprehensively examines the multifaceted effects of ES on beef quality, encompassing factors and settings influencing its efficacy and the underlying biochemical mechanisms revealed using traditional biochemistry methods. It then delves into the molecular pathways modulated by ES, as unveiled by muscle proteomics, aiming to provide a second look and an unprecedented understanding of the underlying biochemical mechanisms through an integrative proteomics analysis of low-voltage ES (LVES) proteomics studies. The proteins changing as a result of ES were gathered in a compendium of 67 proteins, from which 14 were commonly identified across studies. In-depth bioinformatics of this compendium allowed a comprehensive overview of the molecular signatures and interacting biochemical pathways behind electrically stimulated beef muscles. The proteins belong to interconnected molecular pathways including the ATP metabolic process and glycolysis, muscle structure and contraction, heat shock proteins, oxidative stress, proteolysis and apoptosis. Understanding the intricate interplay of molecular pathways behind ES could improve the efficiency of beef production, ensuring consistent meat quality and meeting consumer expectations. The integrative analysis approach performed in this study holds promise for the meat industry's sustainability and competitiveness.

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电刺激改善肉质:相互影响的因素、潜在的生化机制以及利用蛋白质组学对分子途径的再认识
要满足消费者的需求并维持肉类行业的发展,确保牛肉的食用品质始终如一至关重要。电刺激(ES)是一种屠宰后干预措施,用于加速死后糖酵解,避免冷缩,通过复杂的物理、化学和生化机制(包括蛋白质分解)控制肉质嫩化率,改善牛肉嫩度,并使 pH 值达到正常水平,从而对牛肉色泽产生积极影响。本综述全面探讨了 ES 对牛肉品质的多方面影响,包括影响其功效的因素和环境,以及使用传统生物化学方法揭示的潜在生物化学机制。然后,它深入探讨了肌肉蛋白质组学揭示的 ES 所调节的分子通路,旨在通过对低电压 ES(LVES)蛋白质组学研究的综合蛋白质组学分析,对潜在的生化机制进行第二次审视和前所未有的了解。因 ES 而发生变化的蛋白质汇集成一个包含 67 个蛋白质的简编,其中 14 个蛋白质在不同研究中被共同鉴定。通过对该简编进行深入的生物信息学研究,可以全面了解电刺激牛肉肌肉背后的分子特征和相互作用的生化途径。这些蛋白质属于相互关联的分子通路,包括 ATP 代谢过程和糖酵解、肌肉结构和收缩、热休克蛋白、氧化应激、蛋白分解和细胞凋亡。了解 ES 背后错综复杂的分子通路相互作用可提高牛肉生产效率,确保肉质稳定,满足消费者的期望。本研究采用的综合分析方法有望提高肉类行业的可持续性和竞争力。
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来源期刊
Meat Science
Meat Science 工程技术-食品科技
CiteScore
12.60
自引率
9.90%
发文量
282
审稿时长
60 days
期刊介绍: The aim of Meat Science is to serve as a suitable platform for the dissemination of interdisciplinary and international knowledge on all factors influencing the properties of meat. While the journal primarily focuses on the flesh of mammals, contributions related to poultry will be considered if they enhance the overall understanding of the relationship between muscle nature and meat quality post mortem. Additionally, papers on large birds (e.g., emus, ostriches) as well as wild-captured mammals and crocodiles will be welcomed.
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