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Magnesium Links Starvation-Mediated Antibiotic Persistence to ATP

Tao Xu, Xuyang Wang, Meng Lu, Mengqi Zhu, Jing Wu, Yuanyuan Xu, Ying Zhang, Wenhong Zhang

2020mSphere23 citationsDOIOpen Access PDF

Abstract

Various genes have been identified to be involved in bacterial persister formation regardless of the presence or absence of persister genes. Despite recent discoveries of the roles of ATP and membrane potential in persister formation, the key element that triggers change of ATP or membrane potential remains elusive. Our work demonstrates that Mg 2+ instead of other ions or nutrient components is the key element for persistence by inducing a decrease of cytoplasmic ATP, which subsequently induces persister formation. In addition, we observed tight regulation of genes for Mg 2+ transport in different growth phases in S. aureus . These findings indicate that despite being a key nutrient, Mg 2+ also served as a key signal in persister formation during growth.

Topics & Concepts

StarvationPersistence (discontinuity)AntibioticsChemistryMicrobiologyBiologyEndocrinologyEngineeringGeotechnical engineeringMagnesium in Health and DiseaseChemical Reactions and IsotopesIon Transport and Channel Regulation
Magnesium Links Starvation-Mediated Antibiotic Persistence to ATP | Litcius