Publications
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Filters: Keyword is Oxidation-Reduction [Clear All Filters]
Characterization of dissimilatory Fe(III) versus NO3- reduction in the hyperthermophilic archaeon Pyrobaculum aerophilum.. J Bacteriol. 188(2):525-31.
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2006. Characterization of extracellular minerals produced during dissimilatory Fe(III) and U(VI) reduction at 100 degrees C by Pyrobaculum islandicum.. Geobiology. 6(2):147-54.
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2008. Characterization of metabolism in the Fe(III)-reducing organism Geobacter sulfurreducens by constraint-based modeling.. Appl Environ Microbiol. 72(2):1558-68.
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2006. Comment on "Abiotic controls on H2 production from basalt-water reactions and implications for aquifer biogeochemistry".. Environ Sci Technol. 35(7):1556-9.
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2001. Constraints on anaerobic respiration in the hyperthermophilic Archaea Pyrobaculum islandicum and Pyrobaculum aerophilum.. Appl Environ Microbiol. 74(2):396-402.
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2011. Desulfitobacterium metallireducens sp. nov., an anaerobic bacterium that couples growth to the reduction of metals and humic acids as well as chlorinated compounds.. Int J Syst Evol Microbiol. 52(Pt 6):1929-35.
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2002. Desulfuromonas palmitatis sp. nov., a marine dissimilatory Fe(III) reducer that can oxidize long-chain fatty acids.. Arch Microbiol. 164(6):406-13.
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1995. Differences in Fe(III) reduction in the hyperthermophilic archaeon, Pyrobaculum islandicum, versus mesophilic Fe(III)-reducing bacteria.. FEMS Microbiol Lett. 195(2):253-8.
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2001. Differential protein expression in the metal-reducing bacterium Geobacter sulfurreducens strain PCA grown with fumarate or ferric citrate.. Proteomics. 6(2):632-40.
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2006. Direct and Fe(II)-mediated reduction of technetium by Fe(III)-reducing bacteria.. Appl Environ Microbiol. 66(9):3743-9.
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2000. Direct exchange of electrons within aggregates of an evolved syntrophic coculture of anaerobic bacteria.. Science. 330(6009):1413-5.
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2010. Direct microbial electron uptake as a mechanism for stainless steel corrosion in aerobic environments.. Water Res. 219:118553.
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2022. Direct Observation of Electrically Conductive Pili Emanating from .. mBio. 12(4):e0220921.
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2021. Dissimilatory arsenate and sulfate reduction in Desulfotomaculum auripigmentum sp. nov.. Arch Microbiol. 168(5):380-8.
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1997. Dissimilatory Fe(III) and Mn(IV) reduction.. Adv Microb Physiol. 49:219-86.
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2004. Dissimilatory Fe(III) and Mn(IV) reduction.. Microbiol Rev. 55(2):259-87.
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1991. Dissimilatory metal reduction.. Annu Rev Microbiol. 47:263-90.
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1993. DNA microarray analysis of nitrogen fixation and Fe(III) reduction in Geobacter sulfurreducens.. Appl Environ Microbiol. 71(5):2530-8.
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2005. Effect of nutrient and selective inhibitor amendments on methane oxidation, nitrous oxide production, and key gene presence and expression in landfill cover soils: characterization of the role of methanotrophs, nitrifiers, and denitrifiers.. Appl Microbiol Biotechnol. 85(2):389-403.
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2009. Electrically conductive pili from pilin genes of phylogenetically diverse microorganisms.. ISME J. 12(1):48-58.
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2018. Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells.. Nat Biotechnol. 21(10):1229-32.
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2003. Electricity production by Geobacter sulfurreducens attached to electrodes.. Appl Environ Microbiol. 69(3):1548-55.
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2003. Electrode-reducing microorganisms that harvest energy from marine sediments.. Science. 295(5554):483-5.
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2002. Electromicrobiology: the ecophysiology of phylogenetically diverse electroactive microorganisms.. Nat Rev Microbiol. 20(1):5-19.
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2022.
Department of Microbiology