不同冻融速率对猪肉加工性能和结构的影响

X.L. YU, X.B. LI, L. ZHAO, X.L. XU, H.J. MA, G.H. ZHOU, J.A. BOLES
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引用次数: 24

摘要

采用均匀设计,对2级冷冻速率、6级解冻速率和个体(3头猪6头背最长分枝杆菌)3个因素进行研究。解冻后,测定解冻损失(TL)、蒸煮损失(CL)、保水能力(压损)和蛋白质溶解度。并用透射电子显微镜和扫描电子显微镜观察结构。结果表明,冻结速率、解冻速率和个体对TL和CL有显著影响。除去不同个体的固定因素,解冻速率和冻结速率对TL和CL的影响是非线性的。在TL和CL上观察到冻结速率和解冻速率之间的显著相互作用。持水能力与不同动物相关,与冻结速率和融化速率无关。解冻速率和动物对总蛋白溶解度(TPS)和肌原纤维蛋白溶解度(MPS)有一定影响;然而,冷冻速率对它们几乎没有影响。综合考虑CL、TL、TPS和MPS,速冻速率和慢融速率(0.75 cm/h)为最佳组合。在不同冷冻速率下冷冻的肉的扫描电子微克显示,形成的冰晶大小和分布不同。缓慢的冷冻速率导致细胞间冰晶,而快速的冷冻速率导致细胞内冰晶。冻融加工对肉的结构有一定的负面影响。解冻后的肉显示出z盘密度的降低,肌原纤维的整体完整性丧失;解冻速度越快,肌原纤维的破坏就越严重。肉类的冷冻作为一种经济上有利的储存方式已被广泛使用,一般来说,冷冻肉在用于后续生产之前应先解冻。然而,冷冻程序、冷冻储存和解冻程序可能会影响肉的品质属性,如解冻损失、颜色和嫩度。虽然有许多不同的解冻方法,但空气解冻和水解冻仍是食品工业中广泛使用的方法,特别是在中国,其价格和方便的优势。因此,我们进行了实验,研究冻结速率和解冻速率的影响,这与中国食品工业目前的做法相似。研究发现,速冻和低解冻是冻猪肉的最佳组合,可以降低冻猪肉的解冻损失、蒸煮损失和挤压损失,保持冻猪肉的功能特性。我们的研究结果是可操作的,对食品工业和消费者控制冻肉的质量,提高食用质量和货币价值都有很大的帮助。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFECTS OF DIFFERENT FREEZING RATES AND THAWING RATES ON THE MANUFACTURING PROPERTIES AND STRUCTURE OF PORK

ABSTRACT

Uniform design was adopted, and three factors, i.e., freezing rates with two levels, thawing rates with six levels and individual (six pork M. Longissimus dorsi from three pigs), were investigated. After thawing, thaw loss (TL), cook loss (CL), water-holding capacity (pressing loss) and protein solubility were measured. Structure was also viewed using transmission electron micrographs and scanning electron micrographs. The results showed that freezing rates, thawing rates and individual significantly affected TL and CL. Eliminating the effects of fixed factors of different individuals, the effects of thawing rates and freezing rates on TL and CL were nonlinear. Significant interactions between freezing rates and thawing rates on both TL and CL were observed. Water-holding capacity was correlated to different animals and was independent of freezing rates and thawing rates. Thawing rates and animal had some effects on total protein solubility (TPS) and myofibrillar protein solubility (MPS); however, freezing rates had almost no effects on them. Considering the CL, TL, TPS and MPS comprehensively, fast freezing rate and slower thawing rates (0.75 cm/h) were the optimal combination. Scanning electron micrograms of meat frozen at different freezing rates showed that ice crystals formed at different sizes and distribution. Slow freezing rates resulted in intercellular ice crystals, while quick freezing rates resulted in intracellular ice crystals. Freezing and thawing processing had some negative effects on the structure of meat. Thawed meat showed a reduction in the density of the Z-disks, and the overall integrity of the myofibril was lost; the quicker the thawing rates were, the more severe the disruption of the myofibril.

PRACTICAL APPLICATIONS

The freezing of meat has been widely used as an economically favorable way of storage, and generally, frozen meat should be thawed before it is used in the subsequent production. However, freezing procedures, frozen storage and the thawing procedures could affect meat quality attributes such as thaw loss, color and tenderness. Although there are many different methods of thawing, air thawing and water thawing are still the methods widely used in the food industry, especially in China, for its priority in price and convenience. Therefore, experiments were carried out to research the effect of freezing rate and thawing rate, which were similar to the present practice of the food industry in China. We found that fast freezing and low thawing were the optimal combination, which can decrease thaw loss, cook loss and pressing loss, and can maintain the functional properties of frozen pork meat. The result of our research was operable and very useful for both the food industry and the consumers to control the quality of frozen meat and to enhance the eating quality and the monetary value.

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Journal of Muscle Foods
Journal of Muscle Foods 工程技术-食品科技
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