Suppression of TGA2‐Mediated Salicylic Acid Defence by <i>Tomato Yellow Leaf Curl Virus</i> C2 via Disruption of TCP7‐Like Transcription Factor Activity in Tobacco
Ping Li, Lei Zhang, Xiaotian Yan, Chao Zheng, Xinyue Zhang, Jianping Chen, Shu‐Sheng Liu, Xiao‐Wei Wang
Abstract
Tomato yellow leaf curl virus (TYLCV) is a significant threat to tomato cultivation globally, transmitted exclusively by the whitefly Bemisia tabaci. While previous research suggests that the TYLCV C2 protein plays a role in fostering mutualistic interactions between the virus and its insect vectors, the specific mechanisms remain unclear. In this study, we show that the C2 protein interferes with the salicylic acid (SA) defence pathway by disrupting TCP7-like transcription factor-mediated regulation of TGA2 expression. Whitefly infestation increases the expression of TCP7-like transcription factors (TCP7-L1 and TCP7-L2), which subsequently trigger TGA2-dependent activation of BGL2 transcription, enhancing plant resistance to whiteflies. However, the TYLCV C2 protein interacts with these TCP7-like factors, reducing their binding affinity to the TGA2 promoter, which in turn suppresses BGL2 expression in the SA signalling pathway. These findings provide new insights into how TYLCV C2 modulates TCP7-like protein activity to impair SA-mediated defences, contributing to the mutualistic relationship between TYLCV and whiteflies. This work deepens our understanding of the complex regulatory networks underlying these virus-vector-host interactions.