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From Proteopedia
Crystal Structure of the Apo Bacillus subtilis GabR C-terminal Effector-binding and Oligomerization Domain
Structural highlights
FunctionGABR_BACSU Activates the transcription of the gabTD operon. Is also a repressor of its own expression, both in the presence and absence of GABA. Binds specifically to the DNA region overlapping the -35 region of the gabT promoter and the -10 and +1 regions of the gabR promoter. Principally regulates the utilization of gamma-aminobutyrate.[1] [2] Publication Abstract from PubMedAntimicrobial resistance is a significant cause of mortality globally due to infections, a trend that is expected to continue to rise. As existing treatments fail and new drug discovery slows, the urgency to develop novel antimicrobial therapeutics grows stronger. One promising strategy involves targeting bacterial systems exclusive to pathogens, such as the transcription regulator protein GabR. Expressed in diverse bacteria including Escherichia coli, Bordetella pertussis, and Klebsiella pneumoniae, GabR has no homolog in eukaryotes, making it an ideal therapeutic target. Bacillus subtilis GabR (bsGabR), the most studied variant, regulates its own transcription and activates genes for GABA aminotransferase (GabT) and succinic semialdehyde dehydrogenase (GabD). This intricate regulatory system presents a compelling antimicrobial target with the potential for agonistic intervention to disrupt bacterial gene expression and induce cellular dysfunction, especially in bacterial stress responses. To explore manipulation of this system and the potential of this protein as an antimicrobial target, an in-depth understanding of the unique PLP-dependent transcription regulation is critical. Herein, we report the successful structural modification of the cofactor PLP and demonstrate the biochemical reactivity of the PLP analog pyridoxal-5'-tetrazole (PLT). Through both spectrophotometric and X-ray crystallographic analyses, we explore the interaction between bsGabR and PLT, together with a synthesized GABA derivative (S)-4-amino-5-phenoxypentanoate (4-phenoxymethyl-GABA or 4PMG). Most notably, we present a crystal structure of the condensed, external aldimine complex within bsGabR. While PLT alone is not a drug candidate, it can act as a probe to study the detailed mechanism of GabR-mediated function. PLT employs a tetrazole moiety as a bioisosteric replacement for phosphate in PLP. In addition, the PLP-4PMG adduct observed in the structure may serve as a novel chemical scaffold for subsequent structure-based antimicrobial design. Bioisosteric replacement of pyridoxal-5'-phosphate to pyridoxal-5'-tetrazole targeting Bacillus subtilis GabR.,Kaley NE, Liveris ZJ, Moore M, Reidl CT, Wawrzak Z, Becker DP, Liu D Protein Sci. 2025 Jan;34(1):e70014. doi: 10.1002/pro.70014. PMID:39720892[3] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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