GABA in plants: developmental and stress resilience perspective

Abstract Gamma‐aminobutyric acid (GABA), a ubiquitously present non‐proteinogenic amino acid, has recently emerged as a key regulator of growth and development in plants during normal as well as challenging environmental conditions. GABA biosynthesis has been reported at multiple stages of plant development, particularly during vegetative and reproductive stages and in response to stress conditions. Accumulating evidence has highlighted the crucial roles of various cell cycle regulators such as type‐D cyclins and CDK;A1, transcription factors such as E2Fa, as well as Ca 2+/ Calmodulin proteins in GABA biosynthesis in plants. GABA is known to improve stress tolerance by improving photosynthetic activity, C/N metabolism, stomatal conductance, and stress‐induced reactive oxygen species (ROS) detoxification. Here, we have reviewed recent studies that have explored the novel roles of GABA in plants with a focus on plant development and stress resilience.