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Cooperated biotransformation of ginsenoside extracts into ginsenoside 20( S )‐Rg3 by three thermostable glycosidases
Author(s) -
Zhang S.,
Luo J.,
Xie J.,
Wang Z.,
Xiao W.,
Zhao L.
Publication year - 2020
Publication title -
journal of applied microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.889
H-Index - 156
eISSN - 1365-2672
pISSN - 1364-5072
DOI - 10.1111/jam.14513
Subject(s) - ginsenoside , biotransformation , chemistry , enzyme , chromatography , beta glucosidase , stereochemistry , biochemistry , enzyme assay , ginseng , medicine , alternative medicine , pathology
Abstract Aims The aim of this work was to transform ginsenoside extract into the pharmacologically active minor ginsenoside 20( S )‐Rg3 by three thermostable glycosidases. Methods and Results The GH1 thermostable beta‐glucosidase Tpebgl1 from Thermotoga petrophlia was found to have the ability to convert ginsenosides Rb1 and Rb2. Its properties concerning ginsenoside conversion were systematically investigated. It had high specific activity on p NPG (162·20 U mg −1 ) and p NPArp (22·14 U mg −1 ). The Km and V max of Tpebgl1 for p NPG were 0·28 mmol l −1 and 470·2 U mg −1 and for p NPArp were 17·30 mmol l −1 and 74·28 U mg −1 . Therefore, it could successfully convert ginsenosides Rb1 and Rb2 into ginsenoside Rd, which has been proven by experiments in this paper then. Tpebgl1 also had good tolerance to glucose and some organic solvents. These made Tpebgl1 a good catalyst candidate for industrial application. Finally, it was applied to convert ginsenoside extract into the pharmacologically active minor ginsenoside 20( S )‐Rg3, combined with thermostable ginsenoside Rc converting α‐1,6‐ l ‐arabinofranosidase Tt‐Afs and ginsenoside Rd converting β‐glucosidase Tpebgl3. A quantity of 10 g l −1 of ginsenoside extract was transformed into 3·93 g l −1 of Rg3 at 90°C, pH 5·0 for 3 h, with a corresponding molar conversion of 98·19%. Conclusion The thermostable enzyme Tpebgl1 was found to be a ginsenoside‐converting enzyme and successfully applied in the preparation of ginsenoside 20( S )‐Rg3 from ginsenoside extract. The three‐step cooperate  transformation system of ginsenoside extract was established by using Tpebgl1, Tt‐Afs (a thermostable ginsenoside Rc converting α‐1,6‐ l ‐arabinofranosidase) and Tpebgl3 (a thermostable ginsenoside Rb1 converting β‐glucosidase). Significance and Impact of the Study Converting all the major ginsenosides into protopanaxadiol‐type ginsenoside extract would greatly reduce the cost of ginsenoside Rg3 preparation. Enzymes from thermophilic bacteria can meet the requirement of higher reaction temperatures in industrial reactions for substrate solubility promotion and bacterial contamination prevention.

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