Shewanella algae BrY is a Gram negative, facultative anaerobe isolated from the Great Bay
Estuary of New Hampshire. This member of the γ Proteobacteria demonstrates extensive …

Shewanella oneidensis strain MR-1, a facultative anaerobe and model organism for
dissimilatory metal reduction, uses a periplasmic flavocytochrome, FccA, both as a terminal …

The vast majority of bacteria require iron for growth. 1, 2 Iron is an essential element
required for key biological processes, including amino acid synthesis, oxygen transport …

Many bacteria of the genus Shewanella are facultative anaerobes able to reduce a broad
range of soluble and insoluble substrates, including Fe (III) mineral oxides. Under anoxic …

The formation of Fe (III) oxides in natural environments occurs in the presence of natural
organic matter (OM), resulting in the formation of OM–mineral complexes that form through …

Bacteria of the genus Shewanella have been studied for their versatile electron-accepting
abilities, particularly for extracellular electron transfer via minerals. Shewanella marisflavi …

Iron is essential for the growth of nearly all microorganisms yet iron is only sparingly soluble
near the neutral pH, aerobic conditions in which many microorganisms grow. The pH of …

Shewanella algae BrY uses insoluble mineral oxides as terminal electron acceptors, but the
mechanism of electron transfer from cell surface to mineral surface is not well understood …

Recent voltammetric analyses indicate that Shewanella putrefaciens strain 200 produces
soluble organic‐Fe (III) complexes during anaerobic respiration of sparingly soluble Fe (III) …

Although Pelobacter species are closely related to Geobacter species, recent studies
suggested that Pelobacter carbinolicus may reduce Fe (III) via a different mechanism …