Genome-wide identification of HD-Zip transcription factor family in Artemisia argyi and functional analysis of AaHDZ64 in trichome development

The homeodomain-leucine zipper (HD-Zip) family of transcription factor is a unique and vital gene family in plants, involved in various processes including organ development, stress responses, and regulation of secondary metabolite biosynthesis. This study aimed to investigate the role of HD-Zip family transcription factors in the development of Artemisia argyi trichomes. By utilizing the whole genome data of A. argyi, we identified 69 AaHDZ transcription factors and systematically characterized their structural and physicochemical properties. The predicted amino acid sequence lengths range from 188 to 854 residues, with relative molecular masses of 22.2–94.6 kDa, theoretical isoelectric points of 4.65–9.31, and lipid solubility indices of 52.08–89.14. All of these proteins were hydrophilic. The results of subcellular localization predictions indicated that most AaHDZ proteins are localized in the nucleus, while a few are located in the cytoplasm and chloroplasts. Based on the classification of the HD-Zip family in Arabidopsis thaliana, the 69 AaHDZ proteins were divided into four subfamilies, with similar gene structures observed within each subfamily. Heterologous overexpression of AaHDZ64 gene significantly increased trichome density in A. thaliana. The results confirmed that AaHDZ64 is a positive regulatory factor for the growth and development of trichomes. This study provides a theoretical foundation for understanding the molecular regulatory mechanisms underlying trichome development in A. argyi leaves and offers insights for the precision breeding of A. argyi.