Widely targeted metabolomics analysis reveals the potential metabolic network of high-pressure carbon dioxide regulating fresh-cut Chinese water chestnut yellowing

Abstract

In this study, we applied widely targeted metabolomics and physiological analysis to investigate the non-volatile metabolites changes and regulatory mechanisms of high-pressure carbon dioxide (HPCD) treatment on the yellowing of fresh-cut Chinese water chestnut (CWC). A total of 349 non-volatile metabolites were identified and subjected to principal component analysis (PCA), OPLS-DA and KEGG enrichment analysis. The results showed that the yellowing of fresh-cut CWC was related to membrane lipid metabolism and flavonoid biosynthesis. Damage stress induced membrane lipid metabolism and flavonoid biosynthesis in surface tissues, and the increase of phenylalanine ammonia-lyase (PAL) activity in flavonoid biosynthesis might be triggered by signaling molecules from membrane lipid metabolism. On the one hand, HPCD treatment could directly inhibit the activity of PAL, and reduce the biosynthesis of flavonoids in the damaged tissues. On the other hand, HPCD could indirectly inhibit the generation and accumulation of potential signaling molecules by regulating membrane lipid metabolism, thus preventing signaling molecules from triggering flavonoid biosynthesis. This study proposed a potential network of HPCD regulating the yellowing of fresh-cut CWC and established the foundation for further control of yellowing in fresh-cut CWC.