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Investigation of direct vs. indirect involvement of the c-type cytochrome MacA in Fe(III) reduction by Geobacter sulfurreducens.. FEMS Microbiol Lett. 286(1):39-44.
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Lack of electricity production by Pelobacter carbinolicus indicates that the capacity for Fe(III) oxide reduction does not necessarily confer electron transfer ability to fuel cell anodes.. Appl Environ Microbiol. 73(16):5347-53.
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2007. Lack of production of electron-shuttling compounds or solubilization of Fe(III) during reduction of insoluble Fe(III) oxide by Geobacter metallireducens.. Appl Environ Microbiol. 66(5):2248-51.
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2000. Long-range electron transport to Fe(III) oxide via pili with metallic-like conductivity.. Biochem Soc Trans. 40(6):1186-90.
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2012. MacA, a diheme c-type cytochrome involved in Fe(III) reduction by Geobacter sulfurreducens.. J Bacteriol. 186(12):4042-5.
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2004. Magnetite formation from ferrihydrite by hyperthermophilic archaea from Endeavour Segment, Juan de Fuca Ridge hydrothermal vent chimneys.. Geobiology. 12(3):200-11.
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2014. Mechanisms for accessing insoluble Fe(III) oxide during dissimilatory Fe(III) reduction by Geothrix fermentans.. Appl Environ Microbiol. 68(5):2294-9.
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2002. A Membrane-Bound Cytochrome Enables To Conserve Energy from Extracellular Electron Transfer.. mBio. 10(4)
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2019. Metabolic response of Geobacter sulfurreducens towards electron donor/acceptor variation.. Microb Cell Fact. 9:90.
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2010. Metabolism of organic compounds in anaerobic, hydrothermal sulphate-reducing marine sediments.. Environ Microbiol. 5(7):583-91.
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2003. Metagenomic analysis of a permafrost microbial community reveals a rapid response to thaw.. Nature. 480(7377):368-71.
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2011. Microarray and genetic analysis of electron transfer to electrodes in Geobacter sulfurreducens.. Environ Microbiol. 8(10):1805-15.
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2006. The microbe electric: conversion of organic matter to electricity.. Curr Opin Biotechnol. 19(6):564-71.
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2008. Microbe Profile: : a model for novel physiologies of biogeochemical and technological significance.. Microbiology (Reading). 168(2)
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2022. Microbial communities acclimate to recurring changes in soil redox potential status.. Environ Microbiol. 12(12):3137-49.
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2010. Microbial communities associated with anaerobic benzene degradation in a petroleum-contaminated aquifer.. Appl Environ Microbiol. 65(7):3056-63.
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1999. Microbial corrosion of metals: The corrosion microbiome.. Adv Microb Physiol. 78:317-390.
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2021. Microbial functional gene diversity with a shift of subsurface redox conditions during In Situ uranium reduction.. Appl Environ Microbiol. 78(8):2966-72.
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2012. Microbial nanowires: a new paradigm for biological electron transfer and bioelectronics.. ChemSusChem. 5(6):1039-46.
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2012. Microbiological evidence for Fe(III) reduction on early Earth.. Nature. 395(6697):65-7.
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Department of Microbiology