[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5010/JPB.2021.48.3.186

Gibberellins enhance plant growth and ginsenoside content in Panax ginseng

Hong, Chang Pyo (Theragen Bio Co., Ltd)
Jang, Gwi Yeong (Department of Herbal Crop Research, NIHHS, RDA)
Ryu, Hojin (Department of Biology, Chungbuk National University)

Publication Information

Journal of Plant Biotechnology / v.48, no.3, 2021 , pp. 186-192 More about this Journal

Abstract

The roots of Korean ginseng (Panax ginseng) have a long history of usage as a medicinal drug. Ginsenosides, a group of triterpenioid saponins in ginseng, have been reported to show important pharmacological effects. Many studies have attempted to identify the ginsenoside synthesis pathways of P. ginseng and to increase crop productivity. Recent studies have shown that exogenous gibberellin (GA) treatments promote storage root secondary growth by integration of the modulating cambium stem cell homeostasis with a secondary cell wall-related gene network. However, the dynamic regulation of ginsenoside synthesis-related genes and their contents by external signaling cues has been rarely evaluated. In this study, we confirmed that GA treatment not only enhanced the secondary growth of P. ginseng storage roots, but also significantly enriched the terpenoid biosynthesis process in RNA-seq analysis. Consistently, we also found that the expression of most genes involved in the ginsenoside synthesis pathways, including those encoding methylerythritol-4-phosphate (MEP) and mevalonate (MVA), and the saponin content in both leaves and roots was increased by exogenous GA application. These results can be used in future development of biotechnology for ginseng breeding and enhancement of saponin content.

Keywords

Panax ginseng; GA; Hormone; Ginsenoside; Terpenoid biosynthesis;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Benveniste P (2004) Biosynthesis and accumulation of sterols. Annu Rev Plant Biol 55:429-457 DOI
2	Bergman ME, Davis B, Phillips MA (2019) Medically Useful Plant Terpenoids: Biosynthesis, Occurrence, and Mechanism of Action. Molecules 24(21)
3	Heinrich M, Hettenhausen C, Lange T, Wunsche H, Fang J, Baldwin IT, Wu J (2013) High levels of jasmonic acid antagonize the biosynthesis of gibberellins and inhibit the growth of Nicotiana attenuata stems. Plant J 73(4):591-606 DOI
4	Subramanian A, Tamayo P, Mootha VK, Mukherjee S, Ebert BL, Gillette MA, Paulovich A, Pomeroy SL, Golub TR, Lander ES (2005) Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles. Proceedings of the National Academy of Sciences 102 (43):15545-15550 DOI
5	Zhao S, Wang L, Liu L, Liang Y, Sun Y, Wu J (2014) Both the mevalonate and the non-mevalonate pathways are involved in ginsenoside biosynthesis. Plant Cell Rep 33(3):393-400 DOI
6	Ratan ZA, Haidere MF, Hong YH, Park SH, Lee JO, Lee J, Cho JY (2021) Pharmacological potential of ginseng and its major component ginsenosides. J Ginseng Res 45(2):199-210 DOI
7	Li J, Liu S, Wang J, Li J, Liu D, Li J, Gao W (2016) Fungal elicitors enhance ginsenosides biosynthesis, expression of functional genes as well as signal molecules accumulation in adventitious roots of Panax ginseng C. A. Mey. J Biotechnol 239:106-114 DOI
8	Baeg IH, So SH (2013) The world ginseng market and the ginseng (Korea). J Ginseng Res 37(1):1-7 DOI
9	Cheng H, Song S, Xiao L, Soo HM, Cheng Z, Xie D, Peng J (2009) Gibberellin acts through jasmonate to control the expression of MYB21, MYB24, and MYB57 to promote stamen filament growth in Arabidopsis. PLoS Genet 5(3):e1000440 DOI
10	Rahimi S, Kim YJ, Sukweenadhi J, Zhang D, Yang DC (2016) PgLOX6 encoding a lipoxygenase contributes to jasmonic acid biosynthesis and ginsenoside production in Panax ginseng. J Exp Bot 67(21):6007-6019 DOI
11	Wang C, Liu J, Deng J, Wang J, Weng W, Chu H, Meng Q (2020) Advances in the chemistry, pharmacological diversity, and metabolism of 20(R)-ginseng saponins. J Ginseng Res 44 (1):14-23 DOI
12	Zhang Y, J in T, Ryu G, Gao Y (2021) Effects of screw configuration on chemical properties and ginsenosides content of extruded ginseng. Food Sci Nutr 9(1):251-260 DOI
13	Hwang H, Lee HY, Ryu H, Cho H (2020) Functional Characterization of BRASSINAZOLE-RESISTANT 1 in Panax Ginseng (PgBZR1) and Brassinosteroid Response during Storage Root Formation. Int J Mol Sci 21(24)
14	Kim NH, Jayakodi M, Lee SC, Choi BS, Jang W, Lee J, Kim HH, Waminal NE, Lakshmanan M, van Nguyen B, Lee YS, Park HS, Koo HJ, Park JY, Perumal S, Joh HJ, Lee H, Kim J, Kim IS, Kim K, Koduru L, Kang KB, Sung SH, Yu Y, Park DS, Choi D, Seo E, Kim S, Kim YC, Hyun DY, Park YI, Kim C, Lee TH, Kim HU, Soh MS, Lee Y, In JG, Kim HS, Kim YM, Yang DC, Wing RA, Lee DY, Paterson AH, Yang TJ (2018) Genome and evolution of the shade-requiring medicinal herb Panax ginseng. Plant Biotechnol J 16(11):1904-1917 DOI
15	Hong CP, Kim J, Lee J, Yoo S-i, Bae W, Geem KR, Yu J, Jang I-b, Jo IH, Cho H, Shim D, Ryu H (2021) Gibberellin signaling promotes the secondary growth of storaage roots in Panax ginseng. Int J Mol Sci 22:8694 DOI
16	Huang C, Qian ZG, Zhong JJ (2013) Enhancement of ginsenoside biosynthesis in cell cultures of Panax ginseng by N,N'-dicyclohexylcarbodiimide elicitation. J Biotechnol 165(1):30-36 DOI
17	Kaneko H, Nakanishi K (2004) Proof of the mysterious efficacy of ginseng: basic and clinical trials: clinical effects of medical ginseng, korean red ginseng: specifically, its anti-stress action for prevention of disease. J Pharmacol Sci 95(2):158-162 DOI
18	Lee CH, Kim JH (2014) A review on the medicinal potentials of ginseng and ginsenosides on cardiovascular diseases. J Ginseng Res 38(3):161-166 DOI
19	Lee J, Kim H, Park SG, Hwang H, Yoo Si, Bae W, Kim E, Kim J, Lee HY, Heo TY (2021) Brassinosteroid-BZR1/2-WAT1 module determines the high level of auxin signalling in vascular cambium during wood formation. New Phytologist 230(4):1503-1516 DOI
20	Lee DK, Park S, Long NP, Min JE, Kim HM, Yang E, Lee SJ, Lim J, Kwon SW (2020) Research Quality-Based Multivariate Modeling for Comparison of the Pharmacological Effects of Black and Red Ginseng. Nutrients 12(9)
21	Lee J, Shim D, Moon S, Kim H, Bae W, Kim K, Kim YH, Rhee SK, Hong CP, Hong SY, Lee YJ, Sung J, Ryu H (2018) Genome-wide transcriptomic analysis of BR-deficient Micro-Tom reveals correlations between drought stress tolerance and brassinosteroid signaling in tomato. Plant Physiol Biochem 127:553-560 DOI
22	Hong J, Kim H, Ryu H (2018) Identification of ABSCISIC ACID (ABA) signaling related genes in Panax ginseng. J Plant Biotechnol (45):306-314
23	Jo IH, Lee J, Hong CE, Lee DJ, Bae W, Park SG, Ahn YJ, Kim YC, Kim JU, Lee JW, Hyun DY, Rhee SK, Hong CP, Bang KH, Ryu H (2017) Isoform Sequencing Provides a More Comprehensive View of the Panax ginseng Transcriptome. Genes (Basel) 8(9)
24	Kim J, Shin WR, Kim YH, Shim D, Ryu H (2021) Functional characterization of gibberellin signaling related genes in Panax ginseng. J Plant Biotech 48(3):148-155 DOI
25	Love MI, Huber W, Anders S (2014) Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2. Genome biology 15(12):1-21