Targeted metabolomic and transcriptomic reveal the regulation of UV-C on phenolics biosynthesis of peach fruit during storage

Phenolic compounds are important secondary metabolites in peach fruit and play positive roles in plant resil-ience and human diets. To investigate the regulation of Ultraviolet-C (UV-C) irradiation on phenolics biosyn-thesis of peach fruit, the targeted metabolomic and transcriptomic were used to analyze polyphenolic metabolites and their gene expression patterns. The metabolomic results showed that a total of 45 phenolics were identified in the peach pulp. Total phenolic content was significantly increased by UV-C irradiation and 35 individual phenolics responded observably to UV-C treatment. In particular, UV-C irradiation dramatically increased the content of 2,6-dihydroxybenzoic acid, luteolin, quercitrin, astragalin, narcissin, nicotiflorin, sorhamnetin-3-O-glucoside and hesperidin. The HCT1, CYP98A1/3, COMT1 and CHS2/3 genes in phenyl-propanoid metabolic pathway and the CHI1/3, F3 ' H1/3, P2 ' GT1/2/3/4, UFGT3 and DFR2/3 genes in flavonoid metabolic pathway were significantly regulated by UV-C irradiation. Overall, the present study revealed that phenolics biosynthesis is regulated by UV-C irradiation at the level of metabolites and molecule supported by targeted metabolomic and transcriptomic results.