Mechanical stress acclimation in plants: Linking hormones and somatic memory to thigmomorphogenesis.
Eric BrenyaMahfuza PervinZhong-Hua ChenDavid T TissueScott JohnsonJanet BraamChristopher Ian CazzonelliPublished in: Plant, cell & environment (2022)
A single event of mechanical stimulation is perceived by mechanoreceptors that transduce rapid transient signalling to regulate gene expression. Prolonged mechanical stress for days to weeks culminates in cellular changes that strengthen the plant architecture leading to thigmomorphogenesis. The convergence of multiple signalling pathways regulates mechanically induced tolerance to numerous biotic and abiotic stresses. Emerging evidence showed prolonged mechanical stimulation can modify the baseline level of gene expression in naive tissues, heighten gene expression, and prime disease resistance upon a subsequent pathogen encounter. The phenotypes of thigmomorphogenesis can persist throughout growth without continued stimulation, revealing somatic-stress memory. Epigenetic processes regulate TOUCH gene expression and could program transcriptional memory in differentiating cells to program thigmomorphogenesis. We discuss the early perception, gene regulatory and phytohormone pathways that facilitate thigmomorphogenesis and mechanical stress acclimation in Arabidopsis and other plant species. We provide insights regarding: (1) the regulatory mechanisms induced by single or prolonged events of mechanical stress, (2) how mechanical stress confers transcriptional memory to induce cross-acclimation to future stress, and (3) why thigmomorphogenesis might resemble an epigenetic phenomenon. Deeper knowledge of how prolonged mechanical stimulation programs somatic memory and primes defence acclimation could transform solutions to improve agricultural sustainability in stressful environments.
Keyphrases
- gene expression
- dna methylation
- stress induced
- transcription factor
- cell death
- magnetic resonance imaging
- copy number
- oxidative stress
- blood brain barrier
- physical activity
- heat stress
- current status
- social support
- quantum dots
- drug induced
- endoplasmic reticulum stress
- cerebral ischemia
- contrast enhanced
- high glucose