Chemotactic responses to metals and anaerobic electron acceptors in Shewanella oneidensis MR-1

Journal of Bacteriology

Volumn 187, Issue 14, 2005, Pages 5049-5053

  Bencharit, Sira ^a   Ward, Mandy J ^a  

^a The Johns Hopkins University   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ANTHRAQUINONE 2,6 DISULFONATE; ANTHRAQUINONE DERIVATIVE; DIVALENT CATION; HUMIC ACID; IRON; MANGANESE; METAL; UNCLASSIFIED DRUG; ZINC;

ANAEROBIC METABOLISM; ARTICLE; BACTERIAL CELL; BACTERIAL METABOLISM; BACTERIAL STRAIN; CHEMOTAXIS; ELECTRON TRANSPORT; METAL BINDING; NONHUMAN; OXIDATION; PRIORITY JOURNAL; REDUCTION; SHEWANELLA ONEIDENSIS; SHEWANELLA ONEIDENSIS MR 1;

AEROBIOSIS; ANAEROBIOSIS; CHEMOTAXIS; ELECTRON TRANSPORT; METALS; OXIDATION-REDUCTION; SHEWANELLA;

SHEWANELLA ONEIDENSIS MR-1;

EID: 21844479798     PISSN: 00219193     EISSN: None     Source Type: Journal    
DOI: 10.1128/JB.187.14.5049-5053.2005     Document Type: Article

References (14)

1. Childers, S. E., S. Ciufo, and D. R. Lovley. 2002. Geobacter metallireducens accesses insoluble Fe(III) oxide by chemotaxis. Nature 416:767-769.
2. Kostka, J., and K. H. Nealson. 1998. Isolation, cultivation and characterization of iron- and manganese-reducing bacteria, p. 58-78. In S. S. Burlage, R. Atlas, D. Stahl, G. Geesey, and G. Sayler (ed.), Techniques in microbial ecology. Oxford University Press, Inc., Oxford, England.
3. Krause, B., and K. H. Nealson. 1997. Physiology and enzymology involved in denitrification by Shewanella putrefaciens. Appl. Environ. Microbiol. 63:2613-2618.
4. Lovley, D. R., E. J. P. Phillips, and D. J. Lonergan. 1989. Hydrogen and formate oxidation coupled to dissimilatory reduction of iron or manganese by Alteromonas putrefaciens. Appl. Environ. Microbiol. 55:700-706.
5. Lovley, D. R., E. J. P. Phillips, Y. A. Gorby, and E. R. Landa. 1991. Microbial reduction of uranium. Nature 350:413-416.
6. Moser, D. P., and K. H. Nealson. 1996. Growth of the facultative anaerobe Shewanella putrefaciens by elemental sulfur reduction. Appl. Environ. Microbiol. 62:2100-2105.
7. Myers, C. R., and K. H. Nealson. 1988. Bacterial manganese reduction and growth with manganese oxide as the sole electron acceptor. Science 240: 1319-1321.
8. Myers, C. R., B. P. Carstens, W. E. Antholine, and J. M. Myers. 2000. Chromium(VI) reductase activity is associated with the cytoplasmic membrane of anaerobically grown Shewanella putrefaciens MR-1. J. Appl. Microbiol. 88:98-106.
9. Nealson, K. H., D. P. Moser, and D. A. Saffarini. 1995. Anaerobic electron acceptor chemotaxis in Shewanella putrefaciens. Appl. Environ. Microbiol. 61:1551-1554.
10. Newman, D. K., and R. Kolter. 2000. A role for excreted quinones in extracellular electron transfer. Nature 405:94-97.
11. Straley, S. C., A. G. LaMarre, L. J. Lawrence, and S. F. Conti. 1979. Chemotaxis of Bdellovibrio bacteriovorus toward pure compounds. J. Bacteriol. 140:634-642.
12. Taylor, B. L., I. B. Zhulin, and M. S. Johnson. 1999. Aerotaxis and other energy-sensing behavior in bacteria. Annu. Rev. Microbiol. 53:103-128.
13. Tso, W., and J. Adler. 1974. Negative chemotaxis in Escherichia coli. J. Bacteriol. 118:560-576.
14. Venkateswaran, K., D. P. Moser, M. E. Dollhopf, D. P. Lies, D. A. Saffarini, B. J. MacGregor, D. B. Ringelberg, D. C. White, M. Nishijima, H. Sano, J. Burghardt, E. Stackebrandt, and K. H. Nealson. 1999. Polyphasic taxonomy of the genus Shewanella and description of Shewanella oneidensis sp. nov. Int. J. Syst. Bacteriol. 49:705-724.