Total and Partial Replacement of Meat by Mycoprotein in Hamburger: Physico-Chemical, Nutritional, Mechanical and Overall Acceptability

Current Nutrition & Food Science Pub Date : 2023-04-18 DOI:10.2174/1573401319666230418104833

K. Khosravi‐Darani, H. Hosseini, Fataneh Hahempour-Baltork, Parastou Farshi, B. Jannat, Manouchehr Dadgarnejad, R. Asgharian

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Abstract

Processed meats are considered the most consumable products worldwide. However, there are several limitations related to these products such as health and environmental issues, and the high energy, time, and cost needed for their production, thus manufacturers are looking for effective alternatives for processed meats. Mycoprotein can be a useful approach for meat substitution. This study’s objective was the partial and total replacement of meat with mycoproteins in the formulation of burgers and to investigate the characteristics of these novel formulations for comparison with the control sample (full meat burger). Cooking loss, mechanical, physicochemical, nutritional, color, and sensory properties were determined Cooking loss, mechanical, physicochemical, nutritional, color and sensory properties were determined. The results indicated that mycoprotein substitution could improve health and nutritional properties as a result of including high-value protein and lower lipid content (mostly unsaturated fatty acids). However, the beef burger had better mechanical properties such as cohesiveness, hardness, springiness, and gumminess compared to mycoprotein-containing burgers. Higher OBC (oil binding capacity) and WBC (water binding capacity) of mycoprotein were responsible for filling the interstitial spaces within the protein matrix and reducing the textural attributes. Thus, using less oil and water in mycoprotein-containing formulations is recommended. Moreover, the cooking loss percentage decreased by increasing the mycoprotein content of burgers, which has economic advantages. According to sensory evaluations, no significant changes (p>0.05) were shown in the overall acceptance and taste scores of the burgers. Mycoproteins are potential compounds to be used as promising ingredients for the complete substitution of meat in the burger. noting else

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用真菌蛋白在汉堡包中完全和部分替代肉类:理化、营养、机械和整体可接受性

加工肉类被认为是世界上最容易消费的产品。然而，与这些产品相关的一些限制，如健康和环境问题，以及生产这些产品所需的高能量、时间和成本，因此制造商正在寻找加工肉类的有效替代品。真菌蛋白可以是一种有用的肉类替代品。本研究的目的是在汉堡配方中用真菌蛋白部分和全部替代肉类，并研究这些新配方的特征，以便与对照样品(全肉汉堡)进行比较。测定了蒸煮损失、机械、物理化学、营养、颜色和感官特性。结果表明，真菌蛋白替代由于含有高价值蛋白质和较低的脂质含量(主要是不饱和脂肪酸)，可以改善健康和营养特性。然而，与含有真菌蛋白的汉堡相比，牛肉汉堡具有更好的机械性能，如粘性、硬度、弹性和粘性。较高的油结合能力(OBC)和水结合能力(WBC)是填充蛋白质基质间隙和降低结构属性的主要原因。因此，建议在含有真菌蛋白的配方中使用较少的油和水。此外，提高汉堡中真菌蛋白的含量可以降低汉堡的蒸煮损失率，具有经济效益。感官评价结果显示，汉堡的整体接受度和味觉评分均无显著变化(p>0.05)。真菌蛋白是一种有潜力的化合物，可以作为汉堡中肉类的完全替代成分。注意其他

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Current Nutrition & Food Science

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