Add to ORKGUnder anaerobic conditions, Shewanella putrefaciens is capable of respiratory-chain-linked, high-rate dissimilatory iron reduction via both a constitutive and inducible Fe(III)-reducing system. In the presence of low levels of dissolved oxygen, however, iron reduction by this microorganism is extremely slow. Fe(II)-trapping experiments in which Fe(III) and O_2 were presented simultaneously to batch cultures of S. putrefaciens indicated that autoxidation of Fe(II) was not responsible for the absence of Fe(III) reduction. Inhibition of cytochrome oxidase with CN– resulted in a high rate of Fe(III) reduction in the presence of dissolved O_2, which suggested that respiratory control mechanisms did not involve inhibition of Fe(III) reductase act...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
In many soils, sediments and groundwaters, ferric iron is a major potential electron acceptor for th...
Iron is essential for most living organisms. In addition, its biogeochemical cycling influences impo...
Aerobic respiration and dissimilative iron reduction were studied in pure, batch cultures of Pseudom...
We developed a new method to measure iron reduction at a distance based on depositing Fe(III) (hydr)...
We developed a new method to measure iron reduction at a distance based on depositing Fe(III) (hydr)...
Microbial iron respiration contributes significantly to the biogeochemical cycling of metals and may...
Microbial iron respiration contributes significantly to the biogeochemical cycling of metals and may...
The susceptibility to dissimilatory reduction of polynuclear oxo- and hydroxo-bridged Fe(m) complexe...
The ability of S. putrefaciens to reduce Fe(III) complexed by a variety of ligands has been investig...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
In many soils, sediments and groundwaters, ferric iron is a major potential electron acceptor for th...
Iron is essential for most living organisms. In addition, its biogeochemical cycling influences impo...
Aerobic respiration and dissimilative iron reduction were studied in pure, batch cultures of Pseudom...
We developed a new method to measure iron reduction at a distance based on depositing Fe(III) (hydr)...
We developed a new method to measure iron reduction at a distance based on depositing Fe(III) (hydr)...
Microbial iron respiration contributes significantly to the biogeochemical cycling of metals and may...
Microbial iron respiration contributes significantly to the biogeochemical cycling of metals and may...
The susceptibility to dissimilatory reduction of polynuclear oxo- and hydroxo-bridged Fe(m) complexe...
The ability of S. putrefaciens to reduce Fe(III) complexed by a variety of ligands has been investig...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Observed inhibition of methanogenesis under Fe(III)-reducing conditions is usually explained by comp...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
In many soils, sediments and groundwaters, ferric iron is a major potential electron acceptor for th...
Iron is essential for most living organisms. In addition, its biogeochemical cycling influences impo...