Back to the basics: the molecular blueprint of plant heat stress transcription factors.

Heat stress transcription factors (HSFs) play a pivotal role in regulating plant responses to heat and other environmental stresses, as well as developmental processes. HSFs possess conserved domains responsible for DNA binding, oligomerization, and transcriptional regulation, which collectively enable precise and dynamic control of cellular responses to environmental stimuli. Functional diversification of HSFs has been demonstrated through genetic studies in model plants such as Arabidopsis thaliana and economically important crops like tomato, rice, and wheat. However, the underlying molecular mechanisms that govern HSF function remain only partially understood, and for a handful of HSFs. Advancements in structural biology, biochemistry, molecular biology, and genomics shed light into how HSFs mediate stress responses at the molecular level. These insights offer exciting opportunities to leverage HSF biology for gene editing and crop improvement, enabling the customization of stress tolerance traits via regulation of HSF-dependent regulatory networks to enhance thermotolerance. This review synthesizes current knowledge on HSF structure and function, providing a perspective on their roles in plant adaptation to a changing climate.