(S)-4-Amino-5-phenoxypentanoate designed as a potential selective agonist of the bacterial transcription factor GabR.

Addressing molecular recognition in the context of evolution requires pursuing new molecular targets to enable the development of agonists or antagonists with new mechanisms of action. Disruption of transcriptional regulation through targeting transcription factors that regulate the expression of key enzymes in bacterial metabolism may provide a promising method for controlling the bacterial metabolic pathways. To this end, we have selectively targeted a bacterial transcription regulator through the design and synthesis of a series of γ-aminobutyric acid (GABA) derivatives, including (S)-4-amino-5-phenoxypentanoate (4-phenoxymethyl-GABA), which are based on docking insights gained from a previously-solved crystal structure of GabR from Bacillus subtilis.