Litcius/Paper detail

Dysregulation of Magnesium Transport Protects Bacillus subtilis against Manganese and Cobalt Intoxication

Hualiang Pi, Brian M. Wendel, John D. Helmann

2020Journal of Bacteriology38 citationsDOIOpen Access PDF

Abstract

Cellular metal ion homeostasis is tightly regulated. When metal ion levels are imbalanced, or when one metal is at toxic levels, enzymes may bind to the wrong metal cofactor. Enzyme mismetallation can impair metabolism, lead to new and deleterious reactions, and cause cell death. Beginning with Bacillus subtilis strains genetically sensitized to metal intoxication through loss of efflux or by lowering intracellular iron, we identified mutations that suppress the deleterious effects of excess Mn(II) or Co(II). For both metals, mutations in mpfA , encoding a Mg(II) efflux pump, suppressed toxicity. These mutant strains have elevated intracellular Mg(II), suggesting that Mg(II)-dependent processes are very sensitive to disruption by transition metals.

Topics & Concepts

Bacillus subtilisIntracellularEffluxBiologyEnzymeMagnesiumCofactorMutantManganeseCobaltBiochemistryMetabolismMetalHomeostasisBacteriaChemistryCell biologyInorganic chemistryGeneGeneticsOrganic chemistryTrace Elements in HealthChromium effects and bioremediationAluminum toxicity and tolerance in plants and animals