Tea plant [Camellia sinensis (L.) O. Kuntze] is a typical leaf-type beverage crop. Many secondary metabolites, such as tea polyphenols, theanine, and caffeine that accumulated in tea leaves are beneficial to human health. The fresh leaves of tea plant are harvested and timely processed into tea products with different flavors. The withering of fresh tea leaves is the first step in tea processing and directly affects tea color, taste, and fragrance. To understand the molecular mechanism that influences tea quality during withering, we investigated the dynamic changes in the proteome of postharvest tea leaves in four withering stages (0, 1, 4, and 12 h treatments). A total of 863 unique differentially expressed proteins (DEPs) were identified by iTRAQ. The up- and down-regulated DEPs and the protein-protein interaction networks in different samples presented dynamic changes in their characteristics. The results of the functional annotation revealed that the molecular characteristics of tea withering are similar to leaf senescence. The biosynthesis of main tea-specific compounds that constitute tea color, taste, and fragrance of tea is restricted during withering. The substance transformation and degradation may have positive contributions to tea quality in withering technology. The proteome dynamics can be a useful aid for understanding the withering mechanisms and providing available information for functional discovery of proteins in the future.
Keywords: Leaves; Postharvest; Proteome; Tea plant; Withering; iTRAQ.