Publications
Export 78 results:
Filters: Keyword is Electron Transport and Author is Lovley, Derek R [Clear All Filters]
Engineering Geobacter pili to produce metal:organic filaments.. Biosens Bioelectron. 222:114993.
.
2023. Evidence for involvement of an electron shuttle in electricity generation by Geothrix fermentans.. Appl Environ Microbiol. 71(4):2186-9.
.
2005. Evolution of electron transfer out of the cell: comparative genomics of six Geobacter genomes.. BMC Genomics. 11:40.
.
2010. .
2017. Extracellular Electron Exchange Capabilities of and .. Environ Sci Technol. 55(23):16195-16203.
.
2021. Extracellular electron transfer via microbial nanowires.. Nature. 435(7045):1098-101.
.
2005. Extracellular electron transfer: wires, capacitors, iron lungs, and more.. Geobiology. 6(3):225-31.
.
2008. Fluorescent properties of c-type cytochromes reveal their potential role as an extracytoplasmic electron sink in Geobacter sulfurreducens.. Environ Microbiol. 10(2):497-505.
.
2008. .
2016. Gene expression and deletion analysis of mechanisms for electron transfer from electrodes to Geobacter sulfurreducens.. Bioelectrochemistry. 80(2):142-50.
.
2011. Generation of High Current Densities in Geobacter sulfurreducens Lacking the Putative Gene for the PilB Pilus Assembly Motor.. Microbiol Spectr. 9(2):e0087721.
.
2021. Genetic Manipulation of Desulfovibrio ferrophilus and Evaluation of Fe(III) Oxide Reduction Mechanisms.. Microbiol Spectr. 10(6):e0392222.
.
2022. Genome-scale constraint-based modeling of Geobacter metallireducens.. BMC Syst Biol. 3:15.
.
2009. Geobacter sulfurreducens strain engineered for increased rates of respiration.. Metab Eng. 10(5):267-75.
.
2008. Geoglobus ahangari gen. nov., sp. nov., a novel hyperthermophilic archaeon capable of oxidizing organic acids and growing autotrophically on hydrogen with Fe(III) serving as the sole electron acceptor.. Int J Syst Evol Microbiol. 52(Pt 3):719-28.
.
2002. Going wireless: Fe(III) oxide reduction without pili by Geobacter sulfurreducens strain JS-1.. Appl Environ Microbiol. 80(14):4331-40.
.
2014. Growth with high planktonic biomass in Shewanella oneidensis fuel cells.. FEMS Microbiol Lett. 278(1):29-35.
.
2008. Happy together: microbial communities that hook up to swap electrons.. ISME J. 11(2):327-336.
.
2017. .
2012. .
2019.
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.
.
2007. Long-range electron transport to Fe(III) oxide via pili with metallic-like conductivity.. Biochem Soc Trans. 40(6):1186-90.
.
2012. MacA, a diheme c-type cytochrome involved in Fe(III) reduction by Geobacter sulfurreducens.. J Bacteriol. 186(12):4042-5.
.
2004. Magnetite compensates for the lack of a pilin-associated c-type cytochrome in extracellular electron exchange.. Environ Microbiol. 17(3):648-55.
.
2015. .
2021.
Department of Microbiology