Thomas J. DiChristina scite author profile

The kinetics and mechanism of reductive dissolution of Fe(III) oxides were examined in pure, batch cultures of Pseudomonassp. 200. Primary factors controlling hematite dissolution kinetics were mineral surface area (or concentration of high-energy surface sites), ligand concentration, and cell number. In the presence of nitrilotriacetic acid (NTA), saturation kinetics were apparent in the relationship governing reductive dissolution of hematite. A kinetic expression was developed in which overall iron-reduction rate is functionally related to the concentrations of both NTA and Fe(III).Addition of NTA resulted in a 20-fold increase in the microbial rate of mineral (reductive) dissolution. Mechanisms in which NTA served as a bridging ligand, shuttling respiratory electrons from the membrane-bound microbial electron transport chain to the metal center of the iron oxide, or accelerated the departure of Fe(II) centers (bound to ligand) from the oxide surface following reduction have been postulated. Experimental results indicated that cell-mineral contact was essential for reductive dissolution of goethite.

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Thermodynamics of U(VI) sorption onto Shewanellaputrefaciens

Haas

2001

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Shewanella putrefaciens produces an Fe(III)-solubilizing organic ligand during anaerobic respiration on insoluble Fe(III) oxides

Taillefert¹,

Beckler²,

Carey³

et al. 2007

Journal of Inorganic Biochemistry

108

121

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Dissimilatory Fe(III) and Mn(IV) Reduction by Shewanella putrefaciens Requires ferE , a Homolog of the pulE ( gspE ) Type II Protein Secretion Gene

2002

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Effects of nitrate and nitrite on dissimilatory iron reduction by Shewanella putrefaciens 200

DiChristina

1992

J Bacteriol

133

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