Dynamics of ADH and related genes responsible for the transformation of C6‐aldehydes to C6‐alcohols during the postharvest process of oolong tea

Aroma is an important index of tea quality. The volatile C6‐compounds formed from linoleic and linolenic acids in tea leaf lipids are essential components of tea. C6‐compounds are formed and transformed during the postharvest process of tea leaves. However, the metabolic flux of these C6‐compounds, the activities of related enzymes, and the transcription of related genes during the postharvest process of oolong tea remain unclear. In this study, the chemical profiles of C6‐aldehydes and C6‐alcohols, the pattern of ADH enzyme activity, and the level of CsADH gene expression during the postharvest process of oolong tea were investigated. We found that the turnover process had a positive effect on the accumulation of C6‐alcohols and simultaneously induced ADH activity, especially during the withering stage. The expression of CsADH peaked during the turnover stage. The relative expression level of CSA019598 typically increased during the postharvest process. Correlation analysis demonstrated that CSA019598 expression increased as ADH activity increased. This finding suggests that CSA019598 may play a prominent role in regulating ADH. These results advance our understanding of C6‐compound formation during the postharvest process of oolong tea. We aim to evaluate how green leaf volatiles affect the enzymatic formation and genetic transcription of aromatic compounds in oolong tea in future studies. (a) ADH reduces C6‐Aldehydes into C6‐alcohols during the postharvest process of oolong tea under mechanical wounding conditions. (b) CSA019598 screened from tea plant genome might be an available CsADH gene which plays a major regulatory role during the postharvest process of oolong tea.