Literature DB >> 33452317

Thermal transformation of polar into less-polar ginsenosides through demalonylation and deglycosylation in extracts from ginseng pulp.

Fan Yao1, Xiang Li1, Jing Sun1, Xinxin Cao1, Mengmeng Liu1, Yuanhang Li1, Yujun Liu2.   

Abstract

The present study was conducted to qualitatively and quantitatively elucidate dynamic changes of ginsenosides in ginseng pulp steamed under different temperatures (100 or 120 °C) for different durations (1-6 h) through UPLC-QTOF-MS/MS and HPLC with the aid of as numerous as 18 authentic standards of ginsenosides. Results show that levels of eight polar ginsenosides (i.e., Rg1, Re, Rb1, Rc, Rb2, Rb3, F1, and Rd) declined but those of 10 less-polar ginsenosides [i.e., Rf, Rg2, 20(S)-Rh1, 20(R)-Rg2, F4, 20(S)-Rg3, 20(R)-Rg3, PPT, Rg5, and 20(R)-Rh2] elevated with increases of both steaming temperature and duration; the optimum steaming conditions for achieving the highest total ginsenosides were 100 °C for 1 h. Particular, 20(R)-Rg3, a representative less-polar ginsenoside with high bioactivity such as potent anti-cancer effect, increased sharply but Re, the most abundant polar ginsenoside in fresh ginseng pulp, decreased dramatically. More importantly, ginsenoside species enhanced from 18 to 42 after steaming, mainly due to transformation of polar into less-polar ginsenosides. Furthermore, four malonyl-ginsenosides were detected in fresh ginseng pulps and ten acetyl-ginsenosides were formed during steaming, demonstrating that demalonylation and acetylation of ginsenosides were the dominant underling mechanisms for transformation of polar into less-polar ginsenosides.

Entities:  

Year:  2021        PMID: 33452317      PMCID: PMC7810680          DOI: 10.1038/s41598-021-81079-w

Source DB:  PubMed          Journal:  Sci Rep        ISSN: 2045-2322            Impact factor:   4.379


  26 in total

1.  The development of a green approach for the biosynthesis of silver and gold nanoparticles by using Panax ginseng root extract, and their biological applications.

Authors:  Priyanka Singh; Yeon Ju Kim; Chao Wang; Ramya Mathiyalagan; Deok Chun Yang
Journal:  Artif Cells Nanomed Biotechnol       Date:  2015-03-14       Impact factor: 5.678

2.  Identification of ginsenoside markers from dry purified extract of Panax ginseng by a dereplication approach and UPLC-QTOF/MS analysis.

Authors:  Heejung Yang; Dong Young Lee; Kyo Bin Kang; Jeom Yong Kim; Sun Ok Kim; Young Hyo Yoo; Sang Hyun Sung
Journal:  J Pharm Biomed Anal       Date:  2015-02-25       Impact factor: 3.935

3.  Steaming-induced chemical transformations and holistic quality assessment of red ginseng derived from Panax ginseng by means of HPLC-ESI-MS/MS(n)-based multicomponent quantification fingerprint.

Authors:  Yuan-yuan Xie; Dan Luo; Yi-jun Cheng; Jin-fang Ma; Yi-ming Wang; Qiong-lin Liang; Guo-an Luo
Journal:  J Agric Food Chem       Date:  2012-08-09       Impact factor: 5.279

4.  Red American ginseng: ginsenoside constituents and antiproliferative activities of heat-processed Panax quinquefolius roots.

Authors:  Chong-Zhi Wang; Han H Aung; Ming Ni; Ji-An Wu; Robin Tong; Sheila Wicks; Tong-Chuan He; Chun-Su Yuan
Journal:  Planta Med       Date:  2007-05-31       Impact factor: 3.352

5.  Pharmacokinetic study of ginsenoside Re with pure ginsenoside Re and ginseng berry extracts in mouse using ultra performance liquid chromatography/mass spectrometric method.

Authors:  Kyung-Mi Joo; Ji-Hae Lee; Hee-Young Jeon; Chan-Woong Park; Deok-Ki Hong; Hye-Jin Jeong; Sang Jun Lee; Seok-Yong Lee; Kyung-Min Lim
Journal:  J Pharm Biomed Anal       Date:  2009-08-18       Impact factor: 3.935

Review 6.  Roles of ginsenosides in inflammasome activation.

Authors:  Young-Su Yi
Journal:  J Ginseng Res       Date:  2017-12-09       Impact factor: 6.060

7.  Stem-leaves of Panax as a rich and sustainable source of less-polar ginsenosides: comparison of ginsenosides from Panax ginseng, American ginseng and Panax notoginseng prepared by heating and acid treatment.

Authors:  Fengxiang Zhang; Shaojian Tang; Lei Zhao; Xiushi Yang; Yang Yao; Zhaohua Hou; Peng Xue
Journal:  J Ginseng Res       Date:  2020-01-12       Impact factor: 6.060

8.  Intraconversion of Polar Ginsenosides, Their Transformation into Less-Polar Ginsenosides, and Ginsenoside Acetylation in Ginseng Flowers upon Baking and Steaming.

Authors:  Xiang Li; Fan Yao; Hang Fan; Ke Li; Liwei Sun; Yujun Liu
Journal:  Molecules       Date:  2018-03-26       Impact factor: 4.411

Review 9.  Role of ginsenosides, the main active components of Panax ginseng, in inflammatory responses and diseases.

Authors:  Ji Hye Kim; Young-Su Yi; Mi-Yeon Kim; Jae Youl Cho
Journal:  J Ginseng Res       Date:  2016-08-18       Impact factor: 6.060

10.  Ginsenoside Rk1 ameliorates paracetamol-induced hepatotoxicity in mice through inhibition of inflammation, oxidative stress, nitrative stress and apoptosis.

Authors:  Jun-Nan Hu; Xing-Yue Xu; Wei Li; Yi-Ming Wang; Ying Liu; Zi Wang; Ying-Ping Wang
Journal:  J Ginseng Res       Date:  2017-07-25       Impact factor: 6.060
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  3 in total

1.  A Comparative Study on Analysis of Ginsenosides in American Ginseng Root Residue by HPLC-DAD-ESI-MS and UPLC-HRMS-MS/MS.

Authors:  Bo-Yang Hsu; Chen-Te Jen; Baskaran Stephen Inbaraj; Bing-Huei Chen
Journal:  Molecules       Date:  2022-05-11       Impact factor: 4.927

2.  Integrated chemical profiling, network pharmacology and pharmacological evaluation to explore the potential mechanism of Xinbao pill against myocardial ischaemia-reperfusion injury.

Authors:  Ying Yang; Ting Chen; Jiaming Liu; Sixuan Chen; Rongqing Cai; Liqiong Wu; Jiexiong Hu; Qiongying Lin; Xiaoxiao Qi; Zhongqiu Liu; Yuanyuan Cheng
Journal:  Pharm Biol       Date:  2022-12       Impact factor: 3.503

3.  Remarkable impact of commercial sterilizing on ginsenosides transformation in fresh ginseng pulp based on widely targeted metabolomics analysis.

Authors:  Junshun Zhang; Zhiyi Ai; Yue Hu; Yonghong Wang; Sitong Liu; Yongzhe Liu; Bo Nan; Yuhua Wang
Journal:  Food Chem X       Date:  2022-08-09
  3 in total

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