通过单宁酶和果胶酶同时处理实现儿茶素的生物转化及从绿茶中提取活性多糖

Biotransformation of catechin and extraction of active polysaccharide from green tea leaves via simultaneous treatment with tannase and pectinase.

作者信息

Baik Joo Hyun, Shin Kwang-Soon, Park Yooheon, Yu Kwang-Won, Suh Hyung Joo, Choi Hyeon-Son

机构信息

Cosmax Bio INC, Jecheon, 390-250, Republic of Korea.

Department of Food Science and Biotechnology, Kyonggi University, Suwon, 443-760, Republic of Korea.

出版信息

J Sci Food Agric. 2015 Aug 30;95(11):2337-44. doi: 10.1002/jsfa.6955. Epub 2014 Nov 7.

DOI:10.1002/jsfa.6955

PMID:25307474

Abstract

BACKGROUND

Green tea is a dietary source of bioactive compounds for human health. Enzymatic treatments induce the bioconversion of bioactive components, which can improve biological activities. In this study, we investigated the effect of simultaneous treatment with tannase and Rapidase on biotransformation of catechins and extraction of polysaccharide from green tea extract (GTE).

RESULTS

Tannase and pectinase treatments induced the biotransformation of catechins and altered tea polysaccharide () content. The addition of GTE to the enzyme reaction resulted in a significant increase in degallated catechins, including gallic acid, a product of the tannase reaction (314.5-4076.0 µg mL(-1)) and a reduction in epigallocatechin gallate (EGCG). Biotransformation of catechins improved the radical scavenging activity of GTE. Pectinase treatment led to change of TPS composition in GTE by hydrolyzing polysaccharides. In addition, pectinase-driven hydrolysis in polysaccharides significantly increased TPS-induced Interleukin 6 (IL-6) production in macrophages. In particular, treatment of Rapidase (TPS-Ra) led to the highest IL-6 production among TPS samples, similar to treatment of highly purified pectinase (TPS-GTE), a positive control.

CONCLUSION

Simultaneous processing with tannase and Rapidase can be an efficient method for the extraction of bioactive polysaccharides and biotransformation of catechins with enhanced radical scavenging activity from green tea.

摘要

背景

绿茶是对人体健康具有生物活性化合物的膳食来源。酶处理可诱导生物活性成分的生物转化，从而改善生物活性。在本研究中，我们研究了单宁酶和Rapidase同时处理对绿茶提取物（GTE）中儿茶素生物转化和多糖提取的影响。

结果

单宁酶和果胶酶处理诱导了儿茶素的生物转化并改变了茶多糖含量。在酶反应中添加GTE导致脱没食子酰基儿茶素显著增加，包括单宁酶反应产物没食子酸（314.5 - 4076.0μg mL(-1)），同时表没食子儿茶素没食子酸酯（EGCG）减少。儿茶素的生物转化提高了GTE的自由基清除活性。果胶酶处理通过水解多糖导致GTE中TPS组成发生变化。此外，果胶酶驱动的多糖水解显著增加了TPS诱导巨噬细胞中白细胞介素6（IL - 6）的产生。特别是，Rapidase处理（TPS - Ra）导致TPS样品中IL - 6产生量最高，类似于阳性对照高度纯化的果胶酶处理（TPS - GTE）。

结论

单宁酶和Rapidase同时处理可能是一种从绿茶中高效提取具有增强自由基清除活性的生物活性多糖和进行儿茶素生物转化的方法。

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通过单宁酶和果胶酶同时处理实现儿茶素的生物转化及从绿茶中提取活性多糖

Biotransformation of catechin and extraction of active polysaccharide from green tea leaves via simultaneous treatment with tannase and pectinase.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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