Proanthocyanidins (PAs, also called condensed tannins), are an important class of secondary metabolites and exist widely in plants. Tea ( Camellia sinensis) is rich in PAs and their precursors, (-)-epicatechin… Click to show full abstract
Proanthocyanidins (PAs, also called condensed tannins), are an important class of secondary metabolites and exist widely in plants. Tea ( Camellia sinensis) is rich in PAs and their precursors, (-)-epicatechin (EC) and (+)-catechin (C). The biosynthesis of PAs is constantly regulated by many different MBW complexes, consisting of MYB transcription factors (TFs), basic-helix-loop-helix (bHLH) TFs, and WD-repeat (WDR) proteins. These regulatory factors can be environmentally affected, such as by biotic and abiotic stresses. In this study, we revalidated the effect of sucrose treatment on tea branches, and a sucrose-induced MYB (SIMYB) TF was screened and studied. Phylogenetic analysis indicted that this SIMYB TF belonged to MYB subgroup 5, named CsMYB5b. Heterologous expression of CsMYB5b in tobacco strongly induced PA accumulation, through up-regulating the key target genes LAR or ANRs. In addition, CsMYB5b restored PA production in the seed coat of A. thaliana tt2 mutant and rescued its phenotype. Yeast two-hybrid assay demonstrated CsMYB5b can interact directly with CsTT8 (an AtTT8 ortholog) and CsWD40 protein. Linking to the expression profiling of CsMYB5b and the PA accumulation pattern in tea plants suggest that the CsMYB5b acts as an important switch for the synthesis of monomeric catechins and PAs. Therefore, these data provide insight into the regulatory mechanisms controlling the biosynthesis of PAs.
               
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