Abstract
The Heat Shock Transcription Factor (Hsf) serves as a critical transcription factor in plants, exerting its function by binding to specific promoter regions in response to heat stress. This activation leads to the up-regulation of heat shock proteins. Taraxacum kok-saghyz Rodin (TKS) is a plant species that produces high quality natural rubber in its root latex. During the growth of TKS, various stresses can affect its defense mechanisms and overall growth. However, studies investigating the Hsf transcription factors in TKS remain limited. In this study, we identified and named 31 Hsf transcription factors in TKS and performed a comparative analysis of their core motifs and gene structures. Based on phylogenetic analysis, these transcription factors were classified into three distinct classes. By cis-element analysis of the TKS promoter genes, we gained valuable insights into the evolutionary characteristics of the TKS Hsf gene family. Transcriptome expression profiling data revealed different expression of various genes within the same tissues. Several TKS Hsf genes exhibited responsiveness to various abiotic stresses and hormonal treatments, indicating their involvement in regulating the plant's response to different environmental conditions. Overall, the Hsf gene family in TKS plays a critical role in plant growth, development, and adaptation to abiotic stresses. This study provides a basis for further functional validation of TKS Hsf genes and elucidation of the regulatory mechanisms of target genes.
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