A Bacterial Toxin Perturbs Intracellular Amino Acid Balance To Induce Persistence
Xiaofeng Zhou, Michael Eckart, L Shapiro
Abstract
, inducing bacterial persistence by disturbing the intracellular tryptophan-glutamine balance. A nitrogen regulatory circuit can be regulated by the intracellular level of tryptophan, which mimics the allosteric role of glutamine in this feedback loop. The HipBA2 module senses different types of stress conditions by increasing the intracellular level of tryptophan, which in turn breaks the tryptophan-glutamine balance and induces glutamine deprivation. Our results reveal a molecular mechanism that allows disparate environmental challenges to converge on a common pathway that results in a dormant state.
Topics & Concepts
Stringent responseOsmolyteIntracellularBiologyBiochemistryCell biologyGlutamine synthetaseGlutamineProtein kinase AAdenylylationOsmotic shockPhosphorylationAmino acidEnzymeEscherichia coliBiosynthesisGeneBacterial Genetics and BiotechnologyVibrio bacteria research studiesBacterial biofilms and quorum sensing