解析从……收获的浆果不同成熟阶段背后的动态代谢组

Unraveling dynamic metabolomes underlying different maturation stages of berries harvested from .

作者信息

Lee Mee Youn, Seo Han Sol, Singh Digar, Lee Sang Jun, Lee Choong Hwan

机构信息

Department of Bioscience and Biotechnology, Konkuk University, Seoul, Republic of Korea.

Holistic Bio Co., Seongnam, Republic of Korea.

出版信息

J Ginseng Res. 2020 May;44(3):413-423. doi: 10.1016/j.jgr.2019.02.002. Epub 2019 Feb 20.

BACKGROUND

Ginseng berries (GBs) show temporal metabolic variations among different maturation stages, determining their organoleptic and functional properties.

METHODS

We analyzed metabolic variations concomitant to five different maturation stages of GBs including immature green (IG), mature green (MG), partially red (PR), fully red (FR), and overmature red (OR) using mass spectrometry (MS)-based metabolomic profiling and multivariate analyses.

RESULTS

The partial least squares discriminant analysis score plot based on gas chromatography-MS datasets highlighted metabolic disparity between preharvest (IG and MG) and harvest/postharvest (PR, FR, and OR) GB extracts along PLS1 (34.9%) with MG distinctly segregated across PLS2 (18.2%). Forty-three significantly discriminant primary metabolites were identified encompassing five developmental stages (variable importance in projection > 1.0, < 0.05). Among them, most amino acids, organic acids, 5-C sugars, ethanolamines, purines, and palmitic acid were detected in preharvest GB extracts, whereas 6-C sugars, phenolic acid, and oleamide levels were distinctly higher during later maturation stages. Similarly, the partial least squares discriminant analysis based on liquid chromatography-MS datasets displayed preharvest and harvest/postharvest stages clustered across PLS1 (11.1 %); however, MG and PR were separated from IG, FR, and OR along PLS2 (5.6 %). Overall, 24 secondary metabolites were observed significantly discriminant (variable importance in projection > 1.0, < 0.05), with most displaying higher relative abundance during preharvest stages excluding ginsenosides Rg1 and Re. Furthermore, we observed strong positive correlations between total flavonoid and phenolic metabolite contents in GB extracts and antioxidant activity.

CONCLUSION

Comprehending the dynamic metabolic variations associated with GB maturation stages rationalize their optimal harvest time per se the related agroeconomic traits.

背景

人参浆果（GBs）在不同成熟阶段呈现出时间性的代谢变化，这决定了它们的感官和功能特性。

方法

我们使用基于质谱（MS）的代谢组学分析和多变量分析，分析了GBs五个不同成熟阶段（包括未成熟绿色（IG）、成熟绿色（MG）、部分红色（PR）、完全红色（FR）和过熟红色（OR））伴随的代谢变化。

结果

基于气相色谱 - MS数据集的偏最小二乘判别分析得分图突出显示，收获前（IG和MG）与收获时/收获后（PR、FR和OR）GB提取物之间的代谢差异沿PLS1（34.9%），MG在PLS2（18.2%）上明显分离。确定了43种显著判别性的初级代谢物，涵盖五个发育阶段（投影变量重要性>1.0，<0.05）。其中，大多数氨基酸、有机酸、5 - C糖、乙醇胺、嘌呤和棕榈酸在收获前GB提取物中被检测到，而6 - C糖、酚酸和油酰胺水平在后期成熟阶段明显更高。同样，基于液相色谱 - MS数据集的偏最小二乘判别分析显示，收获前和收获时/收获后阶段在PLS1（11.1%）上聚类；然而，MG和PR沿PLS2（5.6%）与IG、FR和OR分离。总体而言，观察到24种次生代谢物具有显著判别性（投影变量重要性>1.0，<0.05），除人参皂苷Rg1和Re外，大多数在收获前阶段显示出更高的相对丰度。此外，我们观察到GB提取物中总黄酮和酚类代谢物含量与抗氧化活性之间存在强正相关。