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Ratiometric gibberellin biosensors for the analysis of signaling dynamics and metabolism in plant protoplasts.

Jennifer AndresLisa J SchmunkFederico Grau-EnguixJustine BraguySophia L SamodelovTim BlomeierRocio Ochoa-FernandezWilfried WeberSalim Al-BabiliDavid AlabadíMiguel Angel BlázquezMatias Daniel Zurbriggen
Published in: The Plant journal : for cell and molecular biology (2024)
Gibberellins (GAs) are major regulators of developmental and growth processes in plants. Using the degradation-based signaling mechanism of GAs, we have built transcriptional regulator (DELLA)-based, genetically encoded ratiometric biosensors as proxies for hormone quantification at high temporal resolution and sensitivity that allow dynamic, rapid and simple analysis in a plant cell system, i.e. Arabidopsis protoplasts. These ratiometric biosensors incorporate a DELLA protein as a degradation target fused to a firefly luciferase connected via a 2A peptide to a renilla luciferase as a co-expressed normalization element. We have implemented these biosensors for all five Arabidopsis DELLA proteins, GA-INSENSITIVE, GAI; REPRESSOR-of-ga1-3, RGA; RGA-like1, RGL1; RGL2 and RGL3, by applying a modular design. The sensors are highly sensitive (in the low pm range), specific and dynamic. As a proof of concept, we have tested the applicability in three domains: the study of substrate specificity and activity of putative GA-oxidases, the characterization of GA transporters, and the use as a discrimination platform coupled to a GA agonists' chemical screening. This work demonstrates the development of a genetically encoded quantitative biosensor complementary to existing tools that allow the visualization of GA in planta.
Keyphrases
  • pet ct
  • transcription factor
  • fluorescent probe
  • quantum dots
  • sensitive detection
  • living cells
  • label free
  • room temperature
  • mass spectrometry
  • heavy metals
  • gold nanoparticles
  • plant growth
  • single molecule