U(VI) reduction by spores of Clostridium acetobutylicum

Vegetative cells of Clostridium acetobutylicum are known to reduce hexavalent uranium (U(VI)). We investigated the ability of spores of this organism to drive the same reaction. We found that spores were able to remove U(VI) from solution when H, was provided as an electron donor and to form a U(IV) precipitate. We tested several environmental conditions and found that spent vegetative cell growth medium was required for the process. Electron microscopy showed the product of reduction to accumulate outside the exosporium. Our results point towards a novel U(VI) reduction mechanism, driven by spores, that is distinct from the thoroughly studied reactions in metal-reducing Proteobacteria. (C) 2010 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.

U(VI) reduction by spores of Clostridium acetobutylicum

Quantitative characterization of the inorganic phosphate gene regulatory networks in S. cerevisiae and bottom up engineering an orthogonal gene network

Mapping orthorhombic domains with geometrical phase analysis in rare-earth nickelate heterostructures

Perfect adaptation achieved by transport limitations governs the inorganic phosphate response in S. cerevisiae

Quantitative characterization of the inorganic phosphate gene regulatory networks in S. cerevisiae and bottom up engineering an orthogonal gene network

Mapping orthorhombic domains with geometrical phase analysis in rare-earth nickelate heterostructures

Perfect adaptation achieved by transport limitations governs the inorganic phosphate response in S. cerevisiae