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KMID : 0352720220460020225
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Journal of Ginseng Research
2022 Volume.46 No. 2 p.225 ~ p.234
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The dehiscence process in Panax ginseng seeds and the stigmasterol biosynthesis pathway in terms of metabolomics
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Min Jung-Eun
Long Nguyen Phuoc
Hong Ji-Yeon
Kim Sun-Jo
Anh Nguyen Hoang
Wang Daijie
Wang Xiao
Park Jeong-Hill
Kwon Sung-Won
Lee Seul-Ji
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Abstract
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Background: Ginseng, officially known as Panax ginseng Meyer, has been traditionally used as a medicinal herb, particularly in Asia. Ginseng is propagated from seeds; however, seed germination is challenging, especially in its natural environment on farms. The seeds typically exhibit morphophysiological dormancy and require release from both morphological and physiological dormancy before germination. Although some studies have proposed methods for increasing seed germination rates, the underlying mechanisms of its dormancy release process remain unclear. Here, we investigated metabolic alterations during dehiscence in P. ginseng to determine their potential roles in dormancy release.
Methods: We compared the ginseng seed metabolome before and after dehiscence and the ginsenoside and phytosterol compositions of the seeds in both periods in the presence of related enzymes.
Results: After seed dehiscence, the sugar, amino acid, and squalene concentrations were significantly altered, phytosterols associated with the stigmasterol biosynthesis pathway were increased, while ginsenoside and brassinosteroid levels were not significantly altered. In addition, squalene epoxidase, cycloartenol synthase, 24-methylenesterol C-methyltransferase, and the stigmasterol biosynthesis pathway were activated.
Conclusion: Overall, our findings suggest that morphological activities that facilitate ginseng seed growth are the primary phenomena occurring during the dehiscence process. This study improves the understanding of P. ginseng germination processes and promotes further research of its germination and cultivation.
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KEYWORD
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Dehiscence, Dormancy release, Ginseng seed, Squalene, Warm stratification
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