CHANGES IN SALT EXTRACTABLE PROTEIN AND CA2+-ATPASE ACTIVITY OF MINCE FROM SILVER CARP (HYPOPHTHALMICHTHYS MOLLITRIX) DURING FROZEN STORAGE: A KINETIC STUDY

JINFENG PAN, HUIXING SHEN, YONGKANG LUO
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引用次数: 5

Abstract

ABSTRACT

Changes in salt extractable protein (SEP) and Ca2 + -ATPase activity of actomyosin from washed and unwashed silver carp stored at −10 and −20C were investigated. The resultant decrease of SEP and Ca2 + -ATPase activity mainly occurred in the first 5 and 7 weeks, and the changes obeyed first-order model. The kinetic models of SEP and Ca2 + -ATPase changes were established during frozen storage. The rate constant k of decline in SEP and Ca2+-ATPase activity of samples stored at −10C were higher than that of samples stored at −20C; the D value of samples stored at −10C were lower than that of samples stored at −20C. Compared with washed samples, unwashed samples had a higher rate constant k and activation energies E, and a lower D value. Activation energies E of SEP were higher than E of Ca2+-ATPase activity in all samples.

PRACTICAL APPLICATIONS

Silver carp is one of the main freshwater fish species in China. Washing is an important step for fish processing and temperature is an important factor on fish protein storage. The changes of the kinetic models of SEP and Ca2+-ATPase during frozen storage can explain the effect of temperature and time on silver carp mince quality. These kinetic models can be used to predict the silver carp protein functional changes during frozen storage, and help to provide better methods to effectively utilize silver carp protein resource.

冷冻贮藏期间鲢鱼肉糜盐可提取蛋白和ca2 +- atp酶活性的变化:动力学研究
摘要研究了水洗和未水洗鲢鱼在- 10和- 20℃条件下的盐可提取蛋白(SEP)和肌动球蛋白Ca2 + - atp酶活性的变化。SEP和Ca2 + - atp酶活性的下降主要发生在前5周和第7周,其变化符合一阶模型。建立了冷冻贮藏过程中SEP和Ca2 + - atp酶变化的动力学模型。- 10℃贮藏的样品SEP和Ca2+- atp酶活性下降的速率常数k高于- 20℃贮藏的样品;- 10C保存的样品的D值低于- 20C保存的样品。与水洗样品相比,未水洗样品的速率常数k和活化能E较高,而D值较低。在所有样品中,SEP的活化能E均高于Ca2+- atp酶活性E。鲢鱼是中国主要的淡水鱼种之一。清洗是鱼品加工的重要步骤,而温度是影响鱼品蛋白储存的重要因素。冻藏过程中SEP和Ca2+- atp酶的动力学模型的变化可以解释温度和时间对鲢鱼肉糜品质的影响。这些动力学模型可用于预测鲢鱼冷冻贮藏过程中蛋白质功能的变化,为鲢鱼蛋白质资源的有效利用提供更好的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Muscle Foods
Journal of Muscle Foods 工程技术-食品科技
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