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Magnetotactic Bacteria Accumulate a Large Pool of Iron Distinct from Their Magnetite Crystals
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Magnetotactic bacteria (MTB) produce iron-based intracellular magnetic crystals. They represent a model system for studying iron homeostasis and biomineralization in microorganisms. MTB sequester a large amount of iron in their crystals and have thus been proposed to significantly impact the iron biogeochemical cycle. Several studies proposed that MTB could also accumulate iron in a reservoir distinct from their crystals. Here, we present a chemical and magnetic methodology for quantifying the iron pools in the magnetotactic strain AMB-1. Results showed that most iron is not contained in crystals. We then adapted protocols for the fluorescent Fe(II) detection in bacteria and showed that iron could be detected outside crystals using fluorescence assays. This work suggests a more complex picture for iron homeostasis in MTB than previously thought. Because iron speciation controls its fate in the environment, our results also provide important insights into the geochemical impact of MTB.
American Society for Microbiology
Title: Magnetotactic Bacteria Accumulate a Large Pool of Iron Distinct from Their Magnetite Crystals
Description:
Magnetotactic bacteria (MTB) produce iron-based intracellular magnetic crystals.
They represent a model system for studying iron homeostasis and biomineralization in microorganisms.
MTB sequester a large amount of iron in their crystals and have thus been proposed to significantly impact the iron biogeochemical cycle.
Several studies proposed that MTB could also accumulate iron in a reservoir distinct from their crystals.
Here, we present a chemical and magnetic methodology for quantifying the iron pools in the magnetotactic strain AMB-1.
Results showed that most iron is not contained in crystals.
We then adapted protocols for the fluorescent Fe(II) detection in bacteria and showed that iron could be detected outside crystals using fluorescence assays.
This work suggests a more complex picture for iron homeostasis in MTB than previously thought.
Because iron speciation controls its fate in the environment, our results also provide important insights into the geochemical impact of MTB.
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