WRKY14-DPB Module Enhances Drought Tolerance by Activating the Expression of UGT84B1 Involved in Hydrolyzable Tannin Biosynthesis.

Drought stress severely limits the growth and development of trees. Tannins, which serve as vital secondary metabolites in plant roots, help mitigate drought stress. The Lauraceae family, which holds major economic and ecological value, faces substantial developmental challenges due to its sensitivity to drought conditions. Despite this, research on the regulatory mechanisms governing tannin-specific accumulation under drought stress remains limited. In this study, we aim to explore how WRKY14 interacts with DPB to regulate the metabolism of hydrolyzable tannin (HT) via the key enzyme UGT84B1, thereby enhancing drought tolerance in Litsea cubeba, a main species within the Lauraceae family. The WRKY-DPB-UGT84B1 module was specifically expressed in roots in response to drought stress. LcUGT84B1 was found to generate 1-O-Galloyl-β-d-glucose in vitro and in overexpressing L. cubeba. Moreover, molecular biology and transformation experiments demonstrated that LcWRKY14 and LcDPB formed a complex that directly bound to the LcUGT84B1 promoter, activating its expression and thereby facilitating HT synthesis. Co-overexpression of LcWRKY14 and LcDPB significantly enhanced drought tolerance by increasing HT accumulation. These findings provide new insights into the regulatory mechanisms of the WRKY-DPB-UGT84B1 module in promoting drought tolerance and offer a potential breeding strategy for developing drought-resistant varieties.