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(p)ppGpp controls stringent factors by exploiting antagonistic allosteric coupling between catalytic domains

Mohammad Roghanian, Katleen Van Nerom, Hiraku Takada, Julien Caballero-Montes, Hedvig Tamman, Pavel Kudrin, Ariel Talavera, Ievgen Dzhygyr, Simon Ekström, Gemma C. Atkinson, Abel García-Pino, Vasili Hauryliuk

2021Molecular Cell48 citationsDOIOpen Access PDF

Abstract

Amino acid starvation is sensed by Escherichia coli RelA and Bacillus subtilis Rel through monitoring the aminoacylation status of ribosomal A-site tRNA. These enzymes are positively regulated by their product-the alarmone nucleotide (p)ppGpp-through an unknown mechanism. The (p)ppGpp-synthetic activity of Rel/RelA is controlled via auto-inhibition by the hydrolase/pseudo-hydrolase (HD/pseudo-HD) domain within the enzymatic N-terminal domain region (NTD). We localize the allosteric pppGpp site to the interface between the SYNTH and pseudo-HD/HD domains, with the alarmone stimulating Rel/RelA by exploiting intra-NTD autoinhibition dynamics. We show that without stimulation by pppGpp, starved ribosomes cannot efficiently activate Rel/RelA. Compromised activation by pppGpp ablates Rel/RelA function in vivo, suggesting that regulation by the second messenger (p)ppGpp is necessary for mounting an acute starvation response via coordinated enzymatic activity of individual Rel/RelA molecules. Control by (p)ppGpp is lacking in the E. coli (p)ppGpp synthetase SpoT, thus explaining its weak synthetase activity.

Topics & Concepts

BiologyAllosteric regulationStringent responseCoupling (piping)CatalysisBiochemistryEnzymeEscherichia coliGeneMechanical engineeringEngineeringRNA and protein synthesis mechanismsMicrobial Natural Products and BiosynthesisChemical Synthesis and Analysis
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