Magic Spot Nucleotides (MSN) regulate the stringent response, a highly conserved bacterial stress adaptation mechanism, enabling survival when confronted with adverse external challenges. In times of antibiotic crisis, a detailed understanding of the stringent response is of critical importance, as potentially new targets for pharmacological intervention could be identified. In this study, we delineate the MSN interactome in Escherichia coli and Salmonella typhimurium cell lysates applying a family of trifunctional photoaffinity capture compounds. We introduce different MSN probes covering diverse phosphorylation patterns, such as pppGpp, ppGpp, and pGpp. Our chemical proteomics approach provides datasets of diverse putative MSN receptors both from cytosolic and membrane fractions that, upon validation, unveil new MSN targets. We find, for example, that the dinucleoside polyphosphate hydrolase activity of the non-Nudix hydrolase ApaH is potently inhibited by pppGpp, which itself is converted to pGpp by ApaH. The photoaffinity capture compounds described herein will be useful to identify MSN interactomes under varying conditions and across bacterial species.TOCMolecular fishing: a family of trifunctional photoaffinity capture compounds enables the identification of Magic Spot Nucleotide receptors by a chemoproteomics approach.
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