Zhang Yujuan, Hou Lijuan, Hu Jing, Wang Xianchang, Guo Shujing, Xie Hongqing, Zhou Yun, Ai Wen, Li Lin, Wang Xin, Ren Li, Zhao Fangzhou, Fang Xinsheng, Han Jinlong, Shan Chenggang
Institute of Industrial Crops, Shandong Academy of Agricultural Sciences, Jinan 250100, China.
Weihai Academy of Agricultural Sciences, Weihai 264200, China.
Food Res Int. 2025 Feb;203:115884. doi: 10.1016/j.foodres.2025.115884. Epub 2025 Jan 30.
American ginseng (Panax quinquefolius) is considered as a functional food and a medicinal plant, with its fruit containing valuable bioactive ingredients. However, limited knowledge is available regarding its antioxidant capacity, variation in bioactive components, and biosynthetic pathways at various growth stages. The present study examined the in vitro antioxidant capacity of the American ginseng fruit from Wendeng, Shandong at various growth stages, and conducted metabolomic as well as transcriptomic analyses to elucidate the accumulation patterns and biosynthesis of bioactive compounds. The results showed that antioxidant capacity, total flavonoid content (TFC), and total phenolic content (TPC) in fruits at early, middle, and late developmental stages were significantly higher than those in 4-year-old ginseng roots. Notably, fruits at the early developmental stage exhibited the highest antioxidant capacity, which initially declined and subsequently increased as the fruits continued to grow and develop. TFC and TPC were closely correlated with antioxidant capacity in fruits. Widely targeted metabolomics identified 1,094 metabolites with significant changes throughout fruit development, including 223 terpenoids, 164 phenolic acids, and 149 flavonoids. A total of 139 metabolites were closely associated with antioxidant activity in the American ginseng fruits. Furthermore, several genes, such as DFR, LDOX, F3H, CHI, DDS, CYP, UGT, BAHD, as well as MYB, bHLH, and NAC transcription factors (TFs) were identified to be potentially associated with the fruit flavonoids and ginsenosides biosynthesis and their corresponding regulatory networks. The findings provid valuable insights for enhancing the development and utilization of American ginseng fruits as functional foods as well as advancing their quality and breeding practices.
西洋参(Panax quinquefolius)被视为一种功能性食品和药用植物,其果实含有珍贵的生物活性成分。然而,关于其抗氧化能力、生物活性成分的变化以及不同生长阶段的生物合成途径,目前的了解还很有限。本研究检测了山东文登不同生长阶段西洋参果实的体外抗氧化能力,并进行了代谢组学和转录组学分析,以阐明生物活性化合物的积累模式和生物合成过程。结果表明,发育早期、中期和后期果实的抗氧化能力、总黄酮含量(TFC)和总酚含量(TPC)均显著高于四年生参根。值得注意的是,发育早期的果实抗氧化能力最强,随着果实的持续生长和发育,抗氧化能力先下降后上升。果实中的TFC和TPC与抗氧化能力密切相关。广泛靶向代谢组学鉴定出1094种在果实发育过程中发生显著变化的代谢物,包括223种萜类化合物、164种酚酸和149种黄酮类化合物。共有139种代谢物与西洋参果实的抗氧化活性密切相关。此外,还鉴定出几个基因,如DFR、LDOX、F3H、CHI、DDS、CYP、UGT、BAHD,以及MYB、bHLH和NAC转录因子(TFs),它们可能与果实黄酮类化合物和人参皂苷的生物合成及其相应的调控网络有关。这些发现为加强西洋参果实作为功能性食品的开发利用以及提升其品质和育种实践提供了有价值的见解。
