Eco-Sustainable Production of Bioactive Sialyated-Mucin (SiaMuc) Glycopeptide from Edible Bird’s Nest Co-Product

Q4 Agricultural and Biological Sciences

Malaysian applied biology Pub Date : 2023-12-15 DOI:10.55230/mabjournal.v52i5.fisas02

H. Tan, Hui-Zi Lim, Seng Joe Lim, A. S. Babji, S. Sarbini

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引用次数: 0

Abstract

Edible bird’s nest (EBN) is the dried salivary secretion of swiftlets during the breeding season. The widely consumed EBN for its highly unique nutrients has contributed to a high demand for international exportation. However, the processing of EBN to remove inedible materials (i.e. sand, dust, feathers) has contributed to several wastes. The disposal of this waste is hazardous to the environment and a waste of value due to abundant sialylated-mucin (SiaMuc) glycoprotein attached in the impurities. This “waste” is the processing co-product of EBN. Therefore, this study aimed to recover SiaMuc-glycoprotein in EBN co-product (EBNco-P) in the form of bioactive SiaMuc-glycopeptide. Through enzymatic hydrolysis, an eco-friendly alternative to transform insoluble SiaMuc-glycoprotein in EBNco-P into soluble bioactive SiaMuc-glycopeptide, valuable nutrients are separable from the impurities. Previously, through our research, this biotechnology has been applied to cleaned EBN. The research finds that the enzymatic hydrolysis of EBN that produces EBN glycopeptide has led to bioconversion into a high-grade product with enhanced nutritional bioavailability and functionality. Similar results are also revealed in the analyses of cleaned-EBN and EBN co-products. Whereby, the result revealed that the optimum hydrolysis period was at 90 min, in which the DH and enhanced solubility indicated a complete breakdown of glycoprotein into bioactive glycopeptide. This result is in line with the physicochemical analysis result. The hydrolysis has significantly decreased (p≤0.05) the EBN protein content, while the levels for peptide, glycopeptide, polysaccharides, and sialic acid showed the opposite. This study may contribute to broadening the EBN product development in terms of nutraceutical functionality. With the availability of low-cost EBN co-products, this study is beneficial not only scientifically, but also to the consumers, commercialization, and industrialization.

查看原文本刊更多论文

以生态可持续方式从食用燕窝副产品中生产具有生物活性的 Sialyated-Mucin (SiaMuc) 糖肽

食用燕窝（EBN）是金丝燕在繁殖季节分泌的干唾液。燕窝因其独特的营养成分而被广泛食用，因此国际出口需求量很大。然而，为去除不可食用物质（如沙子、灰尘、羽毛）而对燕窝进行的加工产生了多种废物。由于杂质中附着大量的糖蛋白（Sialylated-mucin，SiaMuc），这些废物的处理对环境有害，也是一种有价值的浪费。这种 "废物 "是 EBN 的加工副产品。因此，本研究旨在以生物活性 SiaMuc 糖肽的形式回收 EBN 副产品（EBNco-P）中的 SiaMuc 糖蛋白。通过酶水解（一种将 EBNco-P 中不溶性 SiaMuc 糖蛋白转化为可溶性生物活性 SiaMuc 糖肽的环保方法），可将有价值的营养成分从杂质中分离出来。此前，通过我们的研究，这种生物技术已被应用于清洁的 EBN。研究发现，EBN 的酶水解产生 EBN 糖肽，通过生物转化成为营养生物利用率和功能性更高的高级产品。对清洗后的 EBN 和 EBN 副产品的分析也显示了类似的结果。结果显示，最佳水解时间为 90 分钟，在 90 分钟内，DH 和溶解度的提高表明糖蛋白已完全分解为具有生物活性的糖肽。这一结果与理化分析结果一致。水解显著降低了 EBN 蛋白含量（p≤0.05），而肽、糖肽、多糖和硅酸的含量则相反。这项研究可能有助于扩大 EBN 产品在营养保健功能方面的开发。随着低成本 EBN 副产品的出现，这项研究不仅在科学上，而且在消费者、商业化和工业化方面都是有益的。

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

Malaysian applied biology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

0.60

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0.00%

发文量