Abstract
An mbfA mutant of Bradyrhizobium japonicum defective in iron export is sensitive to short term exposure to high levels iron or H2O2. Here, we found that the mbfA strain grown in elevated iron media (100 μM) became resistant to those treatments, suggesting a stress response adaptation. The bfr gene encodes the iron storage protein bacterioferritin, and its expression is derepressed by iron. An mbfA bfr double mutant showed a loss of stress adaptation, and had a severe growth phenotype in high iron media. Moreover, a bfrup allele in which bfr is constitutively derepressed conferred stress tolerance on an mbfA mutant without elevating the iron content in the growth media. The intracellular iron content of the mbfA bfr double mutant was substantially higher than that found in the wild type, even when grown in relatively low iron media (5 μM). Under that condition, iron-responsive gene expression was aberrant in the mbfA bfr strain. Moreover, the double mutant was sensitive to the iron-activated antibiotic streptonigrin. We conclude that MbfA and Bfr work in concert to manage iron and oxidative stresses. In addition, the need for iron detoxification is not limited to extreme environments, but is also required for normal cellular function.
Highlights
The ability of bacteria to sense nutrient availability and adapt contribute to their success in diverse environments
We demonstrated that an mbfA mutant is sensitive to short term (2 hours) exposure to very high iron (5 mM FeSO4) when they were first grown in standard growth medium which contains 3.7 μM FeCl3 [1]
In contrast to what was observed with cells grown with 3.7 μM FeCl3, the mbfA mutant was resistant to high iron stress and similar to the wildtype when grown in 100 μM FeCl3 (Fig 1B)
Summary
The ability of bacteria to sense nutrient availability and adapt contribute to their success in diverse environments. Iron is an essential nutrient required for many cellular processes. Bioavailability of iron is low in aerobic environment because it is oxidized, and insoluble. High affinity iron acquisition systems are expressed under iron limitation to scavenge the metal. Iron can be toxic, as it catalyzes the generation of reactive oxygen species (ROS).
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