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GNAT toxins of bacterial toxin-antitoxin systems: acetylation of charged tRNAs to inhibit translation.

GCN5-related N-acetyltransferase (GNAT) is a huge superfamily of proteins spanning the prokaryotic and eukaryotic domains of life. GNAT proteins usually transfer an acetyl group from acetyl-CoA to a wide variety of substrates ranging from aminoglycoside antibiotics to large macromolecules. Type II toxin-antitoxin (TA) modules are typically bicistronic and widespread in bacterial and archael genomes with diverse cellular functions. Recently, a novel family of type II TA toxins was described, which presents a GNAT-fold and functions by acetylating charged tRNA thereby precluding translation. These GNAT toxins are usually associated with a corresponding ribbon-helix-helix-fold (RHH) antitoxin. In this issue, Qian et al. describes a unique GNAT-RHH TA system, designated KacAT, from a multidrug resistant strain of the pathogen, Klebsiella pneumoniae. As most type II TA loci, kacAT is transcriptionally autoregulated with the KacAT complex binding to the operator site via the N-terminus region of KacA to repress kacAT transcription. The crystal structure of the KacT toxin is also presented giving a structural basis for KacT toxicity. These findings expand our knowledge on this newly discovered family of TA toxins and the potential role that they may play in antibiotic tolerance and persistence of bacterial pathogens.

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