Metabolomic understanding of intrinsic physiology in Panax ginseng during whole growing seasons
Metabolomic understanding of intrinsic physiology in Panax ginseng during whole growing seasons
Background: Panax ginseng Meyer has widely been used as a traditional herbal medicine because of its diverse health benefits. Amounts of ginseng compounds, mainly ginsenosides, vary according to seasons, varieties, geographical regions, and age of ginseng plants. However, no study has comprehensively determined perturbations of various metabolites in ginseng plants including roots and leaves as they grow.
Methods: nuclear magnetic resonance (1H NMR)–based metabolomics was applied to better understand the metabolic physiology of ginseng plants and their association with climate through global profiling of ginseng metabolites in roots and leaves during whole growing periods.
Results: the results revealed that all metabolites including carbohydrates, amino acids, organic acids, and ginsenosides in ginseng roots and leaves were clearly dependent on growing seasons from March to October. In particular, ginsenosides, arginine, sterols, fatty acids, and uracil diphosphate glucose–sugars were markedly synthesized from March until May, together with accelerated sucrose catabolism, possibly associated with climatic changes such as sun exposure time and rainfall.
Conclusion: this study highlights the intrinsic metabolic characteristics of ginseng plants and their associations with climate changes during their growth. It provides important information not only for better understanding of the metabolic phenotype of ginseng but also for quality improvement of ginseng through modification of cultivation.
Metabolic physiology, Metabolomics, NMR, Panax ginseng
654-665
Lee, Hyo Jung
0016ac5d-7375-446f-9bca-5d346031d09f
Jeong, Jaesik
1fc9e5e0-80e3-4ffd-acb6-7e71a542f344
Alves, Alexessander Couto
87b9179e-abde-4ca5-abfc-4b7c5ac8b03b
Han, Sung Tai
d585c412-486c-4435-9b52-46b9dc98b19c
In, Gyo
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Kim, Eun Hee
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Jeong, Woo Sik
aef78681-7d82-4bd1-9f35-fb0ee2a5e83a
Hong, Young Shick
ad4193a9-773f-4d04-a6c8-b14a1989a7f2
1 October 2019
Lee, Hyo Jung
0016ac5d-7375-446f-9bca-5d346031d09f
Jeong, Jaesik
1fc9e5e0-80e3-4ffd-acb6-7e71a542f344
Alves, Alexessander Couto
87b9179e-abde-4ca5-abfc-4b7c5ac8b03b
Han, Sung Tai
d585c412-486c-4435-9b52-46b9dc98b19c
In, Gyo
5cf2750a-51c1-435f-9b43-501d454e7a19
Kim, Eun Hee
97f8eda1-0663-4cd9-b7b1-b80f0cf0f912
Jeong, Woo Sik
aef78681-7d82-4bd1-9f35-fb0ee2a5e83a
Hong, Young Shick
ad4193a9-773f-4d04-a6c8-b14a1989a7f2
Lee, Hyo Jung, Jeong, Jaesik, Alves, Alexessander Couto, Han, Sung Tai, In, Gyo, Kim, Eun Hee, Jeong, Woo Sik and Hong, Young Shick
(2019)
Metabolomic understanding of intrinsic physiology in Panax ginseng during whole growing seasons.
Journal of Ginseng Research, 43 (4), .
(doi:10.1016/j.jgr.2019.04.004).
Abstract
Background: Panax ginseng Meyer has widely been used as a traditional herbal medicine because of its diverse health benefits. Amounts of ginseng compounds, mainly ginsenosides, vary according to seasons, varieties, geographical regions, and age of ginseng plants. However, no study has comprehensively determined perturbations of various metabolites in ginseng plants including roots and leaves as they grow.
Methods: nuclear magnetic resonance (1H NMR)–based metabolomics was applied to better understand the metabolic physiology of ginseng plants and their association with climate through global profiling of ginseng metabolites in roots and leaves during whole growing periods.
Results: the results revealed that all metabolites including carbohydrates, amino acids, organic acids, and ginsenosides in ginseng roots and leaves were clearly dependent on growing seasons from March to October. In particular, ginsenosides, arginine, sterols, fatty acids, and uracil diphosphate glucose–sugars were markedly synthesized from March until May, together with accelerated sucrose catabolism, possibly associated with climatic changes such as sun exposure time and rainfall.
Conclusion: this study highlights the intrinsic metabolic characteristics of ginseng plants and their associations with climate changes during their growth. It provides important information not only for better understanding of the metabolic phenotype of ginseng but also for quality improvement of ginseng through modification of cultivation.
Text
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Accepted/In Press date: 15 April 2019
e-pub ahead of print date: 18 April 2019
Published date: 1 October 2019
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© 2019
Keywords:
Metabolic physiology, Metabolomics, NMR, Panax ginseng
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Local EPrints ID: 509398
URI: http://eprints.soton.ac.uk/id/eprint/509398
ISSN: 1226-8453
PURE UUID: 257d3f1d-e984-4d0e-b7b9-7410978c0e95
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Date deposited: 20 Feb 2026 17:35
Last modified: 21 Feb 2026 03:20
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Author:
Hyo Jung Lee
Author:
Jaesik Jeong
Author:
Alexessander Couto Alves
Author:
Sung Tai Han
Author:
Gyo In
Author:
Eun Hee Kim
Author:
Woo Sik Jeong
Author:
Young Shick Hong
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