Quantitative Plant Biology (Jan 2024)

Mechanically induced localisation of SECONDARY WALL INTERACTING bZIP is associated with thigmomorphogenic and secondary cell wall gene expression

  • Joshua H. Coomey,
  • Kirk J.-M. MacKinnon,
  • Ian W. McCahill,
  • Bahman Khahani,
  • Pubudu P. Handakumbura,
  • Gina M. Trabucco,
  • Jessica Mazzola,
  • Nicole A. Leblanc,
  • Rithany Kheam,
  • Miriam Hernandez-Romero,
  • Kerrie Barry,
  • Lifeng Liu,
  • Ji E. Lee,
  • John P. Vogel,
  • Ronan C. O’Malley,
  • James J. Chambers,
  • Samuel P. Hazen

DOI
https://doi.org/10.1017/qpb.2024.5
Journal volume & issue
Vol. 5

Abstract

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Plant growth requires the integration of internal and external cues, perceived and transduced into a developmental programme of cell division, elongation and wall thickening. Mechanical forces contribute to this regulation, and thigmomorphogenesis typically includes reducing stem height, increasing stem diameter, and a canonical transcriptomic response. We present data on a bZIP transcription factor involved in this process in grasses. Brachypodium distachyon SECONDARY WALL INTERACTING bZIP (SWIZ) protein translocated into the nucleus following mechanostimulation. Classical touch-responsive genes were upregulated in B. distachyon roots following touch, including significant induction of the glycoside hydrolase 17 family, which may be unique to grass thigmomorphogenesis. SWIZ protein binding to an E-box variant in exons and introns was associated with immediate activation followed by repression of gene expression. SWIZ overexpression resulted in plants with reduced stem and root elongation. These data further define plant touch-responsive transcriptomics and physiology, offering insights into grass mechanotranduction dynamics.

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