PLoS ONE (Aug 2010)

Development of a chromosomally integrated metabolite-inducible Leu3p-alpha-IPM "off-on" gene switch.

  • Maria Poulou,
  • Donald Bell,
  • Kostas Bozonelos,
  • Maria Alexiou,
  • Anthony Gavalas,
  • Robin Lovell-Badge,
  • Eumorphia Remboutsika

DOI
https://doi.org/10.1371/journal.pone.0012488
Journal volume & issue
Vol. 5, no. 8
p. e12488

Abstract

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Present technology uses mostly chimeric proteins as regulators and hormones or antibiotics as signals to induce spatial and temporal gene expression.Here, we show that a chromosomally integrated yeast 'Leu3p-alpha-IotaRhoMu' system constitutes a ligand-inducible regulatory "off-on" genetic switch with an extensively dynamic action area. We find that Leu3p acts as an active transcriptional repressor in the absence and as an activator in the presence of alpha-isopropylmalate (alpha-IotaRhoMu) in primary fibroblasts isolated from double transgenic mouse embryos bearing ubiquitously expressing Leu3p and a Leu3p regulated GFP reporter. In the absence of the branched amino acid biosynthetic pathway in animals, metabolically stable alpha-IPM presents an EC(50) equal to 0.8837 mM and fast "OFF-ON" kinetics (t(50)ON = 43 min, t(50)OFF = 2.18 h), it enters the cells via passive diffusion, while it is non-toxic to mammalian cells and to fertilized mouse eggs cultured ex vivo.Our results demonstrate that the 'Leu3p-alpha-IotaRhoMu' constitutes a simpler and safer system for inducible gene expression in biomedical applications.