Optimum Conversion of Major Ginsenoside Rbl to Minor Ginsenoside Rg3(S) by Pulsed Electric Field-Assisted Acid Hydrolysis Treatment

Chengwen Lu; Yongguang Yin

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Optimum Conversion of Major Ginsenoside Rbl to Minor Ginsenoside Rg3(S) by Pulsed Electric Field-Assisted Acid Hydrolysis Treatment

机译：通过脉冲电场辅助酸水解处理将主要人参皂苷RBL对次人参皂苷RG3的最佳转化

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Ginsenoside Rg3(S) is a primary bioactive component in ginseng, which has pharmacological effects and nutritional activities. In the present study, pulsed electric field (PEF)-assisted acid hydrolysis processing was used to convert major ginsenoside Rbl to minor ginsenoside Rg3(S). The optimum parameters of PEF assisted acid hydrolysis were analyzed by response surface methodology (RSM). The optimum processing conditions were: electric field intensity, 20 kVcm~(-1);; acid concentration, 0.25 mol/L;; pulse number, 10. The conversion rate of ginsenoside Rg3(S) achieved 68.58%, in accordance to the predicted value. The structure of hydrolyzed product was confirmed by ~(13)C-NMR. The results suggested that PEF-assisted acid hydrolysis significantly enhanced conversion rate of ginsenoside Rg3(5).

机译：人参皂甙RG3（S）是人参的主要生物活性成分，具有药理学效应和营养活性。在本研究中，使用脉冲电场（PEF） - 配合酸水解处理将主要人参皂甙RBL转化为次次人参皂苷RG3（S）。通过响应表面方法（RSM）分析PEF辅助酸水解的最佳参数。最佳加工条件是：电场强度，20 kVcm〜（-1）; 酸浓度，0.25mol / l ;; 脉冲数，10.根据预测值，人参皂苷Rg3的转化率为68.58％。通过〜（13）C-NMR确认水解产物的结构。结果表明，PEF辅助酸水解显着增强了人参皂苷RG3（5）的转化率。

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《Open Chemistry》 |2018年第1期|共8页
作者
Chengwen Lu; Yongguang Yin;
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作者单位

College of Life Science Changchun Normal University Changchun 130032 PR China;

College of Biological and Agricultural Engineering Jilin University Changchun 130022 PR China;

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原文格式 PDF
正文语种 eng
中图分类化学;
关键词
Pulsed electric field; Ginsenoside Rbl; Ginsenoside Rg3(S); Acid hydrolysis.;

机译：脉冲电场;人参皂甙RBL;人参皂甙RG3;酸性水解。;

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1. Optimum Conversion of Major Ginsenoside Rbl to Minor Ginsenoside Rg3(S) by Pulsed Electric Field-Assisted Acid Hydrolysis Treatment [J] . Chengwen Lu, Yongguang Yin Open Chemistry . 2018,第1aPta1期

机译：通过脉冲电场辅助酸水解处理将主要人参皂苷RBL对次人参皂苷RG3的最佳转化
2. Optimum Conversion of Major Ginsenoside Rb1 to Minor Ginsenoside Rg3(S) by Pulsed Electric Field-Assisted Acid Hydrolysis Treatment [J] . Chengwen Lu, Yongguang Yin Open Chemistry . 2018,第1期

机译：脉冲电场辅助酸水解法优化人参皂甙Rb1向人参皂甙Rg3（S）的最佳转化
3. Pulsed electric field treatment combined with commercial enzymes converts major ginsenoside Rb1 to minor ginsenoside Rd. [J] . Lu ChengWen, Yin YongGuang Innovative Food Science & Emerging Technologies . 2014,第Null期

机译：脉冲电场处理结合商业酶将主要人参皂苷Rb1转化为次要人参皂苷Rd。
4. Withdrawal from chronic ginsenoside Rbl treatment alters GABA_A receptor mRNA levels of cultured rat hippocampal neurons [C] . Yijun Tang, Zi-li YOU, Wenzheng ZHANG, International Conference on Bioinformatics and Biomedical Engineering . 2009

机译：从慢性人参皂苷RBL处理中取出改变GABA_A受体mRNA水平的培养大鼠海马神经元
5. Kinetic study for the optimization of ginsenoside Rg3 production by heat treatment of ginsenoside Rb1 [O] . Hoang Tung Vo, Jae Youl Cho, Yong-Eui Choi, 2015

机译：人参皂苷Rb1热处理优化人参皂苷Rg3生成的动力学研究
6. Conversion of Ginsenoside Rb1 into Six Types of Highly Bioactive Ginsenoside Rg3 and Its Derivatives by FeCl₃ Catalysis [O] . Hongshan Yu, Yu Wang, Chunying Liu, 2018

机译：将人参皂苷RB1转化为六种类型的高生物活性人参皂苷RG3及其衍生物，通过FECL _{3 催化}

Optimum Conversion of Major Ginsenoside Rbl to Minor Ginsenoside Rg3(S) by Pulsed Electric Field-Assisted Acid Hydrolysis Treatment

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