Tea () is widely cultivated throughout the world for its unique flavor and health benefits. Galloylated catechins in tea plants serve as important secondary metabolites that play a pivotal role in tea taste determination and pharmacological effects. However, the genetic basis of galloylated catechins traits remains elusive. We identified a stable and major-effect quantitative trait locus (QTL) associated with galloylated catechins index (GCI), designated . Within the QTL's confidence interval, two shikimate dehydrogenases (, ) were identified. These enzymes catalyze gallic acid (GA) production from 3-dehydroquinate dehydratase, thereby contributing to galloylated catechins accumulation. Quantitative real-time PCR (RT-qPCR) analysis revealed that and expression levels and GA and galloylated catechins contents were positively correlated. Furthermore, overexpressing and in transgenic tomato plants markedly increased GA and galloylated catechin contents. RNA-seq analysis of transgenic tomato indicated that and primarily regulate genes related to shikimic acid and flavonoid pathways, and jointly promote galloylated catechins synthesis. Our findings have further elucidated the galloylated catechins synthesis pathway and provided a theoretical basis for cultivation of tea cultivars with high galloylated catechin contents.
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