Genome-Wide Investigation and Functional Analysis Reveal That CsGeBP4 Is Required for Tea Plant Trichome Formation

Abstract

Tea plant trichomes not only contribute to the unique flavor and high quality of tea products but also provide physical and biochemical defenses for tea plants. Transcription factors play crucial roles in regulating plant trichome formation. However, limited information about the regulatory mechanism of transcription factors underlying tea plant trichome formation is available. Here, the investigation of trichome phenotypes among 108 cultivars of Yunwu Tribute Tea, integrated with a transcriptomics analysis of both hairy and hairless cultivars, revealed the potential involvement of CsGeBPs in tea trichome formation. In total, six CsGeBPs were identified from the tea plant genome, and their phylogenetic relationships, as well as the structural features of the genes and proteins, were analyzed to further understand their biological functions. The expression analysis of CsGeBPs in different tissues and in response to environmental stresses indicated their potential roles in regulating tea plant development and defense. Moreover, the expression level of CsGeBP4 was closely associated with a high-density trichome phenotype. The silencing of CsGeBP4 via the newly developed virus-induced gene silencing strategy in tea plants inhibited trichome formation, indicating that CsGeBP4 was required for this process. Our results shed light on the molecular regulatory mechanisms of tea trichome formation and provide new candidate target genes for further research. This should lead to an improvement in tea flavor and quality and help in breeding stress-tolerant tea plant cultivars.