Metal-reducing members of the genus Shewanella are important components of the microbial community residing in redox-stratified freshwater and marine environments. Metal-reducing gram-negative bacteria such as Shewanella, however, are presented with a unique physiological challenge: they are required to respire anaerobically on terminal electron acceptors which are either highly insoluble (Fe(III)- and Mn(IV)-oxides) and reduced to soluble end-products or highly soluble (U(VI) and Tc(VII)) and reduced to insoluble end-products. To overcome physiological problems associated with metal solubility, metal-respiring Shewanella are postulated to employ a variety of novel respiratory strategies not found in other gram-negative bacteria which respire on soluble electron acceptors such as O2, NO3 and SO4. The following chapter highlights the latest findings on the molecular mechanism of Fe(III), U(VI) and Tc(VII) reduction by Shewanella, with particular emphasis on electron transport chain physiology.
Revised: July 9, 2009 |
Published: January 1, 2006
Citation
Dichristina T., D.J. Bates, J.L. Burns, J.R. Dale, and A.N. Payne. 2006.Microbial metal reduction by members of the genus Shewanella: novel strategies for anaerobic respiration. In Biogeochemistry of Anoxic Marine Basins, edited by L. Neretin. Dordrecht:Kluwer Publishing Co.