Add to ORKGIron oxidation at neutral pH by the phototrophic anaerobic iron-oxidizing bacterium Rhodobacter sp. strain SW2 leads to the formation of iron-rich minerals. These minerals consist mainly of nano-goethite (-FeOOH), which precipitates exclusively outside cells, mostly on polymer fibers emerging from the cells. Scanning transmission X-ray microscopy analyses performed at the C K-edge suggest that these fibers are composed of a mixture of lipids and polysaccharides or of lipopolysaccharides. The iron and the organic carbon contents of these fibers are linearly correlated at the 25-nm scale, which in addition to their texture suggests that these fibers act as a template for mineral precipitation, followed by limited crystal growth. Moreover, we ...
A nitrate-dependent Fe(II)-oxidizing bacterium was isolated and used to evaluate whether Fe(II) chem...
Magnetotactic bacteria have evolved complex subcellular machinery to construct linear chains of magn...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
International audienceIron oxidation at neutral pH by the phototrophic anaerobic iron-oxidizing bact...
It has been suggested that Fe(II)-oxidizing photoautotrophic bacteria may have catalyzed the precipi...
Transmission electron microscopy examination of bacterial cells, growing naturally in freshwater and...
International audienceMicrobial biomineralization sometimes leads to periplasmic encrustation, which...
International audienceIron-oxidizing bacteria are important actors of the geochemical cycle of iron ...
International audienceProblematic microfossils dominate the palaeontological record between the Grea...
International audienceBiomineralization of magnetite is a central geomicrobiological process that mi...
Understanding the mechanisms of anaerobic microbial iron cycling is necessary for a full appreciatio...
We studied biomimetic mineralization of self-assembling polymer matrices in order to develop a model...
The overall purpose of the project is to explore and quantify the processes that control the formati...
A nitrate-dependent Fe(II)-oxidizing bacterium was isolated and used to evaluate whether Fe(II) chem...
Magnetotactic bacteria have evolved complex subcellular machinery to construct linear chains of magn...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
International audienceIron oxidation at neutral pH by the phototrophic anaerobic iron-oxidizing bact...
It has been suggested that Fe(II)-oxidizing photoautotrophic bacteria may have catalyzed the precipi...
Transmission electron microscopy examination of bacterial cells, growing naturally in freshwater and...
International audienceMicrobial biomineralization sometimes leads to periplasmic encrustation, which...
International audienceIron-oxidizing bacteria are important actors of the geochemical cycle of iron ...
International audienceProblematic microfossils dominate the palaeontological record between the Grea...
International audienceBiomineralization of magnetite is a central geomicrobiological process that mi...
Understanding the mechanisms of anaerobic microbial iron cycling is necessary for a full appreciatio...
We studied biomimetic mineralization of self-assembling polymer matrices in order to develop a model...
The overall purpose of the project is to explore and quantify the processes that control the formati...
A nitrate-dependent Fe(II)-oxidizing bacterium was isolated and used to evaluate whether Fe(II) chem...
Magnetotactic bacteria have evolved complex subcellular machinery to construct linear chains of magn...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...