Periplasmic Bacterial Biomineralization of Copper Sulfide Nanoparticles
Résumé
Metal sulfides are a common group of extracellular bacterial biominerals. However, only a few cases of intracellular biomineralization are reported in this group, mostly limited to greigite (Fe 3 S 4) in magnetotactic bacteria. Here, a previously unknown periplasmic biomineralization of copper sulfide produced by the magnetotactic bacterium Desulfamplus magnetovallimortis strain BW-1, a species known to mineralize greigite (Fe 3 S 4) and magnetite (Fe 3 O 4) in the cytoplasm is reported. BW-1 produces hundreds of spherical nanoparticles, composed of 1-2 nm substructures of a poorly crystalline hexagonal copper sulfide structure that remains in a thermodynamically unstable state. The particles appear to be surrounded by an organic matrix as found from staining and electron microscopy inspection. Differential proteomics suggests that periplasmic proteins, such as a DegP-like protein and a heavy metal-binding protein, could be involved in this biomineralization process. The unexpected periplasmic formation of copper sulfide nanoparticles in BW-1 reveals previously unknown possibilities for intracellular biomineralization that involves intriguing biological control and holds promise for biological metal recovery in times of copper shortage.
Mots clés
biologically-controlled biomineralization, copper sulfide, cryo-electron tomography, intracellular biomineralization, magnetotactic bacteria, proteomics
biologically-controlled biomineralization, copper sulfide, cryo-electron tomography, intracellular biomineralization, magnetotactic bacteria, proteomics
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Advanced Science - 2022 - Park - Periplasmic Bacterial Biomineralization of Copper Sulfide Nanoparticles.pdf (2.71 Mo)
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