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Comparative transcriptome and metabolome analyses of four Panax species explore the dynamics of metabolite biosynthesis

Hyunjin Koo, Yun Sun Lee, Van Binh Nguyen, Giang N. L. Vo, Hyun Jo Koo, Hyun-Seung Park, Padmanaban Mohanan, Young Hun Song, Byeol Ryu, Kyo Bin Kang, Sang Hyun Sung, Tae‐Jin Yang

2022Journal of Ginseng Research16 citationsDOIOpen Access PDF

Abstract

The genus Panax in the Araliaceae family has been used as traditional medicinal plants worldwide and is known to biosynthesize ginsenosides and phytosterols. However, genetic variation between Panax species has influenced their biosynthetic pathways is not fully understood. Simultaneous analysis of transcriptomes and metabolomes obtained from adventitious roots of two tetraploid species (Panax ginseng and P. quinquefolius) and two diploid species (P. notoginseng and P. vietnamensis) revealed the diversity of their metabolites and related gene expression profiles. The transcriptome analysis showed that 2,3-OXIDOSQUALENE CYCLASEs (OSCs) involved in phytosterol biosynthesis are upregulated in the diploid species, while the expression of OSCs contributing to ginsenoside biosynthesis is higher in the tetraploid species. In agreement with these results, the contents of dammarenediol-type ginsenosides were higher in the tetraploid species relative to the diploid species. These results suggest that a whole-genome duplication event has influenced the triterpene biosynthesis pathway in tetraploid Panax species during their evolution or ecological adaptation. This study provides a basis for further efforts to explore the genetic variation of the Panax genus.

Topics & Concepts

TranscriptomePanax notoginsengPloidyBiologyAraliaceaeGinsengMetabolomeGinsenosideBotanyMetabolomicsBiosynthesisGeneMetaboliteGeneticsGene expressionBiochemistryBioinformaticsAlternative medicineMedicinePathologyGinseng Biological Effects and ApplicationsPlant Molecular Biology ResearchPlant tissue culture and regeneration
Comparative transcriptome and metabolome analyses of four Panax species explore the dynamics of metabolite biosynthesis | Litcius