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Molecular basis of ribosome recognition and mRNA hydrolysis by the E. coli YafQ toxin.


ABSTRACT: Bacterial type II toxin-antitoxin modules are protein-protein complexes whose functions are finely tuned by rapidly changing environmental conditions. E. coli toxin YafQ is suppressed under steady state growth conditions by virtue of its interaction with its cognate antitoxin, DinJ. During stress, DinJ is proteolytically degraded and free YafQ halts translation by degrading ribosome-bound mRNA to slow growth until the stress has passed. Although structures of the ribosome with toxins RelE and YoeB have been solved, it is unclear what residues among ribosome-dependent toxins are essential for mediating both recognition of the ribosome and the mRNA substrate given their low sequence identities. Here we show that YafQ coordinates binding to the 70S ribosome via three surface-exposed patches of basic residues that we propose directly interact with 16S rRNA. We demonstrate that YafQ residues H50, H63, D67 and H87 participate in acid-base catalysis during mRNA hydrolysis and further show that H50 and H63 functionally complement as general bases to initiate the phosphodiester cleavage reaction. Moreover YafQ residue F91 likely plays an important role in mRNA positioning. In summary, our findings demonstrate the plasticity of ribosome-dependent toxin active site residues and further our understanding of which toxin residues are important for function.

SUBMITTER: Maehigashi T 

PROVIDER: S-EPMC4652777 | biostudies-literature | 2015 Sep

REPOSITORIES: biostudies-literature

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Molecular basis of ribosome recognition and mRNA hydrolysis by the E. coli YafQ toxin.

Maehigashi Tatsuya T   Ruangprasert Ajchareeya A   Miles Stacey J SJ   Dunham Christine M CM  

Nucleic acids research 20150810 16


Bacterial type II toxin-antitoxin modules are protein-protein complexes whose functions are finely tuned by rapidly changing environmental conditions. E. coli toxin YafQ is suppressed under steady state growth conditions by virtue of its interaction with its cognate antitoxin, DinJ. During stress, DinJ is proteolytically degraded and free YafQ halts translation by degrading ribosome-bound mRNA to slow growth until the stress has passed. Although structures of the ribosome with toxins RelE and Yo  ...[more]

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