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Science 3 June 1988:
Vol. 240. no. 4857, pp. 1319 - 1321
DOI: 10.1126/science.240.4857.1319
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Articles

Bacterial Manganese Reduction and Growth with Manganese Oxide as the Sole Electron Acceptor

CHARLES R. MYERS 1 and KENNETH H. NEALSON 1

1 Center for Great Lakes Studies, University of Wisconsin-Milwaukee, Milwaukee, WI 53201.

Microbes that couple growth to the reduction of manganese could play an important role in the biogeochemistry of certain anaerobic environments. Such a bacterium, Alteromonas putrefaciens MR-1, couples its growth to the reduction of manganese oxides only under anaerobic conditions. The characteristics of this reduction are consistent with a biological, and not an indirect chemical, reduction of manganese, which suggest that this bacterium uses manganic oxide as a terminal electron acceptor. It can also utilize a large number of other compounds as terminal electron acceptors; this versatility could provide a distinct advantage in environments where electron-acceptor concentrations may vary.

Submitted on February 16, 1988
Accepted on April 19, 1988


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Selenite and Tellurite Reduction by Shewanella oneidensis.
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   Abstract »    Full Text »    PDF »
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R. Bouhenni, A. Gehrke, and D. Saffarini (2005)
Appl. Envir. Microbiol. 71, 4935-4937
   Abstract »    Full Text »    PDF »
Chemotactic Responses to Metals and Anaerobic Electron Acceptors in Shewanella oneidensis MR-1.
S. Bencharit and M. J. Ward (2005)
J. Bacteriol. 187, 5049-5053
   Abstract »    Full Text »    PDF »
Shewanella sediminis sp. nov., a novel Na+-requiring and hexahydro-1,3,5-trinitro-1,3,5-triazine-degrading bacterium from marine sediment.
J.-S. Zhao, D. Manno, C. Beaulieu, L. Paquet, and J. Hawari (2005)
Int J Syst Evol Microbiol 55, 1511-1520
   Abstract »    Full Text »    PDF »
Introduction and overview: What do we know for sure?.
K. H. Nealson and R. Popa (2005)
Am J Sci 305, 449-466
   Abstract »    Full Text »    PDF »
Putative mineral-specific proteins synthesized by a metal reducing bacterium.
B. H. Lower, M. F. Hochella Jr., and S. K. Lower (2005)
Am J Sci 305, 687-710
   Abstract »    Full Text »    PDF »
Mineral surfaces and their implications for microbial attachment: Results from Monte Carlo simulations and direct surface observations.
A. Luttge, L. Zhang, and K. H. Nealson (2005)
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   Abstract »    Full Text »    PDF »
Respiration and Growth of Shewanella oneidensis MR-1 Using Vanadate as the Sole Electron Acceptor.
W. Carpentier, L. De Smet, J. Van Beeumen, and A. Brige (2005)
J. Bacteriol. 187, 3293-3301
   Abstract »    Full Text »    PDF »
Comparative Analysis of Differentially Expressed Genes in Shewanella oneidensis MR-1 following Exposure to UVC, UVB, and UVA Radiation.
X. Qiu, G. W. Sundin, L. Wu, J. Zhou, and J. M. Tiedje (2005)
J. Bacteriol. 187, 3556-3564
   Abstract »    Full Text »    PDF »
100th Anniversary Special Paper: * > On Hydrothermal Convection Systems and the Emergence of Life.
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Economic Geology 100, 419-438
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Transcriptome Analysis of Shewanella oneidensis MR-1 in Response to Elevated Salt Conditions.
Y. Liu, W. Gao, Y. Wang, L. Wu, X. Liu, T. Yan, E. Alm, A. Arkin, D. K. Thompson, M. W. Fields, et al. (2005)
J. Bacteriol. 187, 2501-2507
   Abstract »    Full Text »    PDF »
Global profiling of Shewanella oneidensis MR-1: Expression of hypothetical genes and improved functional annotations.
E. Kolker, A. F. Picone, M. Y. Galperin, M. F. Romine, R. Higdon, K. S. Makarova, N. Kolker, G. A. Anderson, X. Qiu, K. J. Auberry, et al. (2005)
PNAS 102, 2099-2104
   Abstract »    Full Text »    PDF »
Low-Temperature Growth of Shewanella oneidensis MR-1.
R. Abboud, R. Popa, V. Souza-Egipsy, C. S. Giometti, S. Tollaksen, J. J. Mosher, R. H. Findlay, and K. H. Nealson (2005)
Appl. Envir. Microbiol. 71, 811-816
   Abstract »    Full Text »    PDF »
Induction of Rapid Detachment in Shewanella oneidensis MR-1 Biofilms.
K. M. Thormann, R. M. Saville, S. Shukla, and A. M. Spormann (2005)
J. Bacteriol. 187, 1014-1021
   Abstract »    Full Text »    PDF »
Shewanella decolorationis sp. nov., a dye-decolorizing bacterium isolated from activated sludge of a waste-water treatment plant.
M. Xu, J. Guo, Y. Cen, X. Zhong, W. Cao, and G. Sun (2005)
Int J Syst Evol Microbiol 55, 363-368
   Abstract »    Full Text »    PDF »
Initial Phases of Biofilm Formation in Shewanella oneidensis MR-1.
K. M. Thormann, R. M. Saville, S. Shukla, D. A. Pelletier, and A. M. Spormann (2004)
J. Bacteriol. 186, 8096-8104
   Abstract »    Full Text »    PDF »
Shewanella profunda sp. nov., isolated from deep marine sediment of the Nankai Trough.
L. Toffin, A. Bidault, P. Pignet, B. J. Tindall, A. Slobodkin, C. Kato, and D. Prieur (2004)
Int J Syst Evol Microbiol 54, 1943-1949
   Abstract »    Full Text »    PDF »
Shewanella marisflavi sp. nov. and Shewanella aquimarina sp. nov., slightly halophilic organisms isolated from sea water of the Yellow Sea in Korea.
J.-H. Yoon, S.-H. Yeo, I.-G. Kim, and T.-K. Oh (2004)
Int J Syst Evol Microbiol 54, 2347-2352
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Survival of Shewanella oneidensis MR-1 after UV Radiation Exposure.
X. Qiu, G. W. Sundin, B. Chai, and J. M. Tiedje (2004)
Appl. Envir. Microbiol. 70, 6435-6443
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Shewanella oneidensis MR-1 Restores Menaquinone Synthesis to a Menaquinone-Negative Mutant.
C. R. Myers and J. M. Myers (2004)
Appl. Envir. Microbiol. 70, 5415-5425
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Phylogenetic relationships among marine Alteromonas-like proteobacteria: emended description of the family Alteromonadaceae and proposal of Pseudoalteromonadaceae fam. nov., Colwelliaceae fam. nov., Shewanellaceae fam. nov., Moritellaceae fam. nov., Ferrimonadaceae fam. nov., Idiomarinaceae fam. nov. and Psychromonadaceae fam. nov..
E. P. Ivanova, S. Flavier, and R. Christen (2004)
Int J Syst Evol Microbiol 54, 1773-1788
   Abstract »    Full Text »    PDF »
Genes Regulated by TorR, the Trimethylamine Oxide Response Regulator of Shewanella oneidensis.
C. Bordi, M. Ansaldi, S. Gon, C. Jourlin-Castelli, C. Iobbi-Nivol, and V. Mejean (2004)
J. Bacteriol. 186, 4502-4509
   Abstract »    Full Text »    PDF »
Shewanella gaetbuli sp. nov., a slight halophile isolated from a tidal flat in Korea.
J.-H. Yoon, K. H. Kang, T.-K. Oh, and Y.-H. Park (2004)
Int J Syst Evol Microbiol 54, 487-491
   Abstract »    Full Text »    PDF »
Vanadium(V) Reduction by Shewanella oneidensis MR-1 Requires Menaquinone and Cytochromes from the Cytoplasmic and Outer Membranes.
J. M. Myers, W. E. Antholine, and C. R. Myers (2004)
Appl. Envir. Microbiol. 70, 1405-1412
   Abstract »    Full Text »    PDF »
Direct Observation of Microbial Inhibition of Calcite Dissolution.
A. Luttge and P. G. Conrad (2004)
Appl. Envir. Microbiol. 70, 1627-1632
   Abstract »    Full Text »    PDF »
Role of Microbes in the Smectite-to-Illite Reaction.
J. Kim, H. Dong, J. Seabaugh, S. W. Newell, and D. D. Eberl (2004)
Science 303, 830-832
   Abstract »    Full Text »    PDF »
Phenazines and Other Redox-Active Antibiotics Promote Microbial Mineral Reduction.
M. E. Hernandez, A. Kappler, and D. K. Newman (2004)
Appl. Envir. Microbiol. 70, 921-928
   Abstract »    Full Text »    PDF »
Isotopic Constraints on Biogeochemical Cycling of Fe.
C. M. Johnson, B. L. Beard, E. E. Roden, D. K. Newman, and K. H. Nealson (2004)
Reviews in Mineralogy and Geochemistry 55, 359-408
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Shewanella waksmanii sp. nov., isolated from a sipuncula (Phascolosoma japonicum).
E. P. Ivanova, O. I. Nedashkovskaya, N. V. Zhukova, D. V. Nicolau, R. Christen, and V. V. Mikhailov (2003)
Int J Syst Evol Microbiol 53, 1471-1477
   Abstract »    Full Text »    PDF »
CHARACTERIZATION OF MICROBIALLY Fe(III)-REDUCED NONTRONITE: ENVIRONMENTAL CELL-TRANSMISSION ELECTRON MICROSCOPY STUDY.
J.-w. Kim, J.-w. Kim, Y. Furukawa, T. L. Daulton, D. Lavoie, and S. W. Newell (2003)
Clays and Clay Minerals 51, 382-389
   Abstract »    Full Text »    PDF »
Molecular Phylogenetic Exploration of Bacterial Diversity in a Bakreshwar (India) Hot Spring and Culture of Shewanella-Related Thermophiles.
D. Ghosh, B. Bal, V. K. Kashyap, and S. Pal (2003)
Appl. Envir. Microbiol. 69, 4332-4336
   Abstract »    Full Text »    PDF »
Microbial Reduction and Precipitation of Vanadium by Shewanella oneidensis.
W. Carpentier, K. Sandra, I. De Smet, A. Brige, L. De Smet, and J. Van Beeumen (2003)
Appl. Envir. Microbiol. 69, 3636-3639
   Abstract »    Full Text »    PDF »
Characterization of Fe(III) Reduction by Chlororespiring Anaeromxyobacter dehalogenans.
Q. He and R. A. Sanford (2003)
Appl. Envir. Microbiol. 69, 2712-2718
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The ars Detoxification System Is Advantageous but Not Required for As(V) Respiration by the Genetically Tractable Shewanella Species Strain ANA-3.
C. W. Saltikov, A. Cifuentes, K. Venkateswaran, and D. K. Newman (2003)
Appl. Envir. Microbiol. 69, 2800-2809
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Effects of ISSo2 Insertions in Structural and Regulatory Genes of the Trimethylamine Oxide Reductase of Shewanella oneidensis.
C. Bordi, C. Iobbi-Nivol, V. Mejean, and J.-C. Patte (2003)
J. Bacteriol. 185, 2042-2045
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Shewanella marinintestina sp. nov., Shewanella schlegeliana sp. nov. and Shewanella sairae sp. nov., novel eicosapentaenoic-acid-producing marine bacteria isolated from sea-animal intestines.
M. Satomi, H. Oikawa, and Y. Yano (2003)
Int J Syst Evol Microbiol 53, 491-499
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Shewanella fidelis sp. nov., isolated from sediments and sea water.
E. P. Ivanova, T. Sawabe, K. Hayashi, N. M. Gorshkova, N. V. Zhukova, O. I. Nedashkovskaya, V. V. Mikhailov, D. V. Nicolau, and R. Christen (2003)
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Characterization of the Lipopolysaccharides and Capsules of Shewanella spp..
A. A. Korenevsky, E. Vinogradov, Y. Gorby, and T. J. Beveridge (2002)
Appl. Envir. Microbiol. 68, 4653-4657
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Genetic Complementation of an Outer Membrane Cytochrome omcB Mutant of Shewanella putrefaciens MR-1 Requires omcB Plus Downstream DNA.
J. M. Myers and C. R. Myers (2002)
Appl. Envir. Microbiol. 68, 2781-2793
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Protective Role of tolC in Efflux of the Electron Shuttle Anthraquinone-2,6-Disulfonate.
J. B. H. Shyu, D. P. Lies, and D. K. Newman (2002)
J. Bacteriol. 184, 1806-1810
   Abstract »    Full Text »    PDF »
Microbial Iron Respiration Can Protect Steel from Corrosion.
M. Dubiel, C. H. Hsu, C. C. Chien, F. Mansfeld, and D. K. Newman (2002)
Appl. Envir. Microbiol. 68, 1440-1445
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Reconstitution of the Trimethylamine Oxide Reductase Regulatory Elements of Shewanella oneidensis in Escherichia coli.
S. Gon, J.-C. Patte, J.-P. Dos Santos, and V. Mejean (2002)
J. Bacteriol. 184, 1262-1269
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Transcriptional and Proteomic Analysis of a Ferric Uptake Regulator (Fur) Mutant of Shewanella oneidensis: Possible Involvement of Fur in Energy Metabolism, Transcriptional Regulation, and Oxidative Stress.
D. K. Thompson, A. S. Beliaev, C. S. Giometti, S. L. Tollaksen, T. Khare, D. P. Lies, K. H. Nealson, H. Lim, J. Yates III, C. C. Brandt, et al. (2002)
Appl. Envir. Microbiol. 68, 881-892
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Role of Menaquinones in Fe(III) Reduction by Membrane Fractions of Shewanella putrefaciens.
D. A. Saffarini, S. L. Blumerman, and K. J. Mansoorabadi (2002)
J. Bacteriol. 184, 846-848
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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.
T. J. DiChristina, C. M. Moore, and C. A. Haller (2002)
J. Bacteriol. 184, 142-151
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Isolation and Characterization of a Shewanella putrefaciens MR-1 Electron Transport Regulator etrA Mutant: Reassessment of the Role of EtrA.
T. M. Maier and C. R. Myers (2001)
J. Bacteriol. 183, 4918-4926
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Identification of a Small Tetraheme Cytochrome c and a Flavocytochrome c as Two of the Principal Soluble Cytochromes c in Shewanella oneidensis Strain MR1.
A. I. Tsapin, I. Vandenberghe, K. H. Nealson, J. H. Scott, T. E. Meyer, M. A. Cusanovich, E. Harada, T. Kaizu, H. Akutsu, D. Leys, et al. (2001)
Appl. Envir. Microbiol. 67, 3236-3244
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Role for Outer Membrane Cytochromes OmcA and OmcB of Shewanella putrefaciens MR-1 in Reduction of Manganese Dioxide.
J. M. Myers and C. R. Myers (2001)
Appl. Envir. Microbiol. 67, 260-269
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Purification and Magneto-optical Spectroscopic Characterization of Cytoplasmic Membrane and Outer Membrane Multiheme c-Type Cytochromes from Shewanella frigidimarina NCIMB400.
S. J. Field, P. S. Dobbin, M. R. Cheesman, N. J. Watmough, A. J. Thomson, and D. J. Richardson (2000)
J. Biol. Chem. 275, 8515-8522
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Role of the Tetraheme Cytochrome CymA in Anaerobic Electron Transport in Cells of Shewanella putrefaciens MR-1 with Normal Levels of Menaquinone.
J. M. Myers and C. R. Myers (2000)
J. Bacteriol. 182, 67-75
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Dissimilatory Reduction of Fe(III) and Other Electron Acceptors by a Thermus Isolate.
T. L. Kieft, J. K. Fredrickson, T. C. Onstott, Y. A. Gorby, H. M. Kostandarithes, T. J. Bailey, D. W. Kennedy, S. W. Li, A. E. Plymale, C. M. Spadoni, et al. (1999)
Appl. Envir. Microbiol. 65, 1214-1221
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Shewanella putrefaciens mtrB Encodes an Outer Membrane Protein Required for Fe(III) and Mn(IV) Reduction.
A. S. Beliaev and D. A. Saffarini (1998)
J. Bacteriol. 180, 6292-6297
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Design and Application of Two Rapid Screening Techniques for Isolation of Mn(IV) Reduction-Deficient Mutants of Shewanella putrefaciens.
B. S. Burnes, M. J. Mulberry, and T. J. DiChristina (1998)
Appl. Envir. Microbiol. 64, 2716-2720
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Mediation of Sulfur Speciation by a Black Sea Facultative Anaerobe.
K. A. Perry, K. A. Perry, J. E. Kostka, G. W. Luther III, and K. H. Nealson (1993)
Science 259, 801-803
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Manganese Flux from Continental Margin Sediments in a Transect Through the Oxygen Minimum.
K. S. Johnson, K. S. Johnson, W. M. Berelson, K. H. Coale, T. L. Coley, V. A. Elrod, W. R. Fairey, H. D. Iams, T. E. Kilgore, and J. L. Nowicki (1992)
Science 257, 1242-1245
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