Chang He scite author profile

The freshness and color quality of postharvest tea leaves can be markedly prolonged and retained by proper preservation measures. Here, we investigated the dynamic changes of chlorophyll and its derivatives in postharvest tea leaves under different low-temperature treatments using natural withering as a control. Chlorophyll decomposition was found closely related with chlorophyllide, pheophorbide, and pheophytin. Low-temperature withering could slow chlorophyll degradation in postharvest tea leaves via significant inhibition on the enzyme activity and gene expression of Mg-dechelatase, chlorophyllase, and pheophorbide a oxygenase. At the initial stage of withering, a significant increase was observed in the chlorophyll content, expression of chlorophyll-synthesis-related enzymes (such as glutamyl-tRNA synthetase, etc.), and chlorophyll synthase activity in newly picked tea leaves. Moreover, an obvious decrease was found in the content of L-glutamate as the foremost precursor substance of chlorophyll synthesis. Hence, our findings revealed that the chlorophyll synthesis reaction was induced by the light−dehydration−stress in the initial withering of tea leaves. This study provides a theoretical basis for exploring preservation technology in actual green tea production.

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Effects of red-light withering on the taste of black tea as revealed by non-targeted metabolomics and transcriptomics analysis

et al. 2021

LWT

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Chang He

Changes of fungal community and non-volatile metabolites during pile-fermentation of dark green tea

Withering degree affects flavor and biological activity of black tea: A non-targeted metabolomics approach

Nonvolatile metabolism in postharvest tea (Camellia sinensis L.) leaves: Effects of different withering treatments on nonvolatile metabolites, gene expression levels, and enzyme activity

Chlorophyll Metabolism in Postharvest Tea (Camellia sinensis L.) Leaves: Variations in Color Values, Chlorophyll Derivatives, and Gene Expression Levels under Different Withering Treatments

Effects of red-light withering on the taste of black tea as revealed by non-targeted metabolomics and transcriptomics analysis

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