The transcription factor HSFA7b controls thermomemory at the shoot apical meristem by regulating ethylene biosynthesis and signaling in Arabidopsis

Sheeba John, Federico Apelt, Amit Kumar, Ivan F. Acosta, Dominik Bents, Maria Grazia Annunziata, Franziska Fichtner, Caroline Gutjahr, Bernd Mueller-Roeber, Justyna J. Olas

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

The shoot apical meristem (SAM) is responsible for overall shoot growth by generating all aboveground structures. Recent research has revealed that the SAM displays an autonomous heat stress (HS) memory of a previous non-lethal HS event. Considering the importance of the SAM for plant growth, it is essential to determine how its thermomemory is mechanistically controlled. Here, we report that HEAT SHOCK TRANSCRIPTION FACTOR A7b (HSFA7b) plays a crucial role in this process in Arabidopsis, as the absence of functional HSFA7b results in the temporal suppression of SAM activity after thermopriming. We found that HSFA7b directly regulates ethylene response at the SAM by binding to the promoter of the key ethylene signaling gene ETHYLENE-INSENSITIVE 3 to establish thermotolerance. Moreover, we demonstrated that HSFA7b regulates the expression of ETHYLENE OVERPRODUCER 1 (ETO1) and ETO1-LIKE 1, both of which encode ethylene biosynthesis repressors, thereby ensuring ethylene homeostasis at the SAM. Taken together, these results reveal a crucial and tissue-specific role for HSFA7b in thermomemory at the Arabidopsis SAM.

Original languageEnglish
Article number100743
JournalPlant Communications
Volume5
Issue number3
DOIs
StatePublished - 11 Mar 2024
Externally publishedYes

Keywords

  • SAM
  • ethylene response
  • heat stress adaptation
  • shoot apical meristem
  • thermomemory
  • thermopriming

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