Publications
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Acetate catabolism in the dissimilatory iron-reducing isolate GS-15.. J Bacteriol. 173(8):2704-6.
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1991. Adaptation to disruption of the electron transfer pathway for Fe(III) reduction in Geobacter sulfurreducens.. J Bacteriol. 187(17):5918-26.
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2005. Anaerobic decomposition of switchgrass by tropical soil-derived feedstock-adapted consortia.. MBio. 3(1)
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2012. Anaerobic degradation of aromatic compounds coupled to Fe(III) reduction by Ferroglobus placidus.. Environ Microbiol. 3(4):281-7.
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2013. Biofilm and nanowire production leads to increased current in Geobacter sulfurreducens fuel cells.. Appl Environ Microbiol. 72(11):7345-8.
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2006. Bug juice: harvesting electricity with microorganisms.. Nat Rev Microbiol. 4(7):497-508.
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2006. Capable of Direct Interspecies Electron Transfer.. Environ Sci Technol. 54(23):15347-15354.
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2020. Carbon cloth stimulates direct interspecies electron transfer in syntrophic co-cultures.. Bioresour Technol. 173:82-86.
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2014. Centimeter-long electron transport in marine sediments via conductive minerals.. ISME J. 9(2):527-31.
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2015. Characterization and modelling of interspecies electron transfer mechanisms and microbial community dynamics of a syntrophic association.. Nat Commun. 4:2809.
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2013. 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. Comparative genomic analysis of Geobacter sulfurreducens KN400, a strain with enhanced capacity for extracellular electron transfer and electricity production.. BMC Genomics. 13:471.
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2012. Constraint-based modeling analysis of the metabolism of two Pelobacter species.. BMC Syst Biol. 4:174.
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2010. Constraint-based modeling of carbon fixation and the energetics of electron transfer in Geobacter metallireducens.. PLoS Comput Biol. 10(4):e1003575.
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2014. Correlation of Key Physiological Properties of Isolates with Environment of Origin.. Appl Environ Microbiol. 87(13):e0073121.
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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. 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 interspecies electron transfer between Geobacter metallireducens and Methanosarcina barkeri.. Appl Environ Microbiol. 80(15):4599-605.
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Department of Microbiology