Comparison of Different Extraction and Purification Methods of Lime Peel Pectin and Evaluation of Physiochemical, Rheological, and Textural Properties

Current Nutrition & Food Science Pub Date : 2024-07-01 DOI:10.2174/0115734013267449230922113820

F. Baghdadi, K. Nayebzadeh, M. Aminifar, A. Mortazavian

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Abstract

Pectin production has recently attracted considerable research interest due to its various applications arising from its unique characteristics. Lime peel, as a by-product of juice factories, has a promising potential for pectin extraction. Lime peel pectin samples were extracted by three extraction processes: a) 90°C of heating for 120 min, b) 90°C of heating for 90 min and then 32 min of sonication, and c) 80°C of heating for 60 min and then 22 min of sonication. Then, they were purified either by ethanol or sodium caseinate (SC) and characterized. SC purification did not enhance the pectin yield; rather, it diminished the level of nonpectin components and resulted in purer pectin (i.e., lower sugar content). The samples purified with SC showed much lower viscosity in solution and storage modulus than the samples purified with ethanol, which could be attributed to their lower sugar content and higher pH (~ 4.6 vs. 2). However, pectin samples purified with SC had a relatively high sugar gel consistency, maybe due to protein retention in their structure as well as the preferential hydration effect of added sucrose. The compact and extended conformations of the pectin sample, which was extracted by “(c) extraction method” and purified with ethanol, resulted in its high viscosity and storage modulus in solution and the highest gel consistency (16.91 Kg.s) compared to the other samples. Regardless of the conditions of extraction procedures, the purification method had a considerable impact on the pectin samples’ characteristics and potential applications.

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石灰皮果胶不同提取和纯化方法的比较以及理化、流变和纹理特性的评价

果胶生产因其独特的特性而被广泛应用，最近引起了人们的极大研究兴趣。石灰皮作为果汁厂的副产品，具有提取果胶的潜力。石灰皮果胶样品通过三种提取工艺提取：a) 90°C 加热 120 分钟；b) 90°C 加热 90 分钟，然后超声处理 32 分钟；c) 80°C 加热 60 分钟，然后超声处理 22 分钟。然后，用乙醇或琥珀酸钠（SC）进行纯化，并对其进行表征。SC 纯化并没有提高果胶的产量；相反，它降低了非果胶成分的含量，使果胶更纯（即含糖量更低）。然而，用 SC 纯化的果胶样品具有相对较高的糖凝胶稠度，这可能是由于其结构中蛋白质的保留以及添加蔗糖的优先水合作用。用"（c）萃取法 "萃取并用乙醇纯化的果胶样品，其构象紧密而扩展，因此其溶液粘度和储存模数高，凝胶稠度（16.91 Kg.s）也比其他样品高。无论提取程序的条件如何，提纯方法对果胶样品的特性和潜在应用都有相当大的影响。

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Current Nutrition & Food Science

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