Abstract
The purpose of this study was to analyze metabolic differences of ginseng berries according to cultivation age and ripening stage using gas chromatography-mass spectrometry (GC-MS)-based metabolomics method. Ginseng berries were harvested every week during five different ripening stages of three-year-old and four-year-old ginseng. Using identified metabolites, a random forest machine learning approach was applied to obtain predictive models for the classification of cultivation age or ripening stage. Principal component analysis (PCA) score plot showed a clear separation by ripening stage, indicating that continuous metabolic changes occurred until the fifth ripening stage. Three-year-old ginseng berries had higher levels of valine, glutamic acid, and tryptophan, but lower levels of lactic acid and galactose than four-year-old ginseng berries at fully ripened stage. Metabolic pathways affected by different cultivation age were involved in amino acid metabolism pathways. A random forest machine learning approach extracted some important metabolites for predicting cultivation age or ripening stage with low error rate. This study demonstrates that different cultivation ages or ripening stages of ginseng berry can be successfully discriminated using a GC-MS-based metabolomic approach together with random forest analysis.
Highlights
Ginseng root (Panax ginseng Meyer) has long been widely used in Asia as a traditional medicinal herb
Fourth- and fifth-harvested ginseng berries (GBs) samples were clearly separated by cultivation age
Fourth-harvested three-year-old GB samples and fifth-harvested four-year-old GB samples were clustered in the similar position on the Principal component analysis (PCA) score plot, suggesting that metabolites of GBs might be different by ripening stage, and by cultivation age
Summary
Ginseng root (Panax ginseng Meyer) has long been widely used in Asia as a traditional medicinal herb. Ginsenosides are the principal effective components of ginseng roots. They show medicinal effects for various diseases, such as hypertension [1], diabetes [2], asthma [3], and cancer [4]. Most ginseng studies have focused on ginsenosides of ginseng roots, ginsenosides are distributed in other parts of ginseng plant, including leaf and berry. It has been reported that contents of ginsenosides in ginseng berries (GBs) are higher than or similar to those in ginseng roots [5]. Several studies have shown that the profile of ginsenosides in GBs differs from that in ginseng roots [6,7]
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