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Lovley DR, Malvankar NS. 2015. Seeing is believing: novel imaging techniques help clarify microbial nanowire structure and function.. Environ Microbiol. 17(7):2209-15.

Yi H, Nevin KP, Kim B-C, Franks AE, Klimes A, Tender LM, Lovley DR. 2009. Selection of a variant of Geobacter sulfurreducens with enhanced capacity for current production in microbial fuel cells.. Biosens Bioelectron. 24(12):3498-503.

Sun Y-L, Montz BJ, Selhorst R, Tang H-Y, Zhu J, Nevin KP, Woodard TL, Ribbe AE, Russell TP, Nonnenmann SS et al.. 2021. Solvent-Induced Assembly of Microbial Protein Nanowires into Superstructured Bundles.. Biomacromolecules. 22(3):1305-1311.

Tang H-Y, Yang C, Ueki T, Pittman CC, Xu D, Woodard TL, Holmes DE, Gu T, Wang F, Lovley DR. 2021. Stainless steel corrosion via direct iron-to-microbe electron transfer by Geobacter species.. ISME J. 15(10):3084-3093.

Ahrendt AJ, Tollaksen SL, Lindberg C, Zhu W, Yates JR, Nevin KP, Babnigg G, Lovley DR, Giometti CS. 2007. Steady state protein levels in Geobacter metallireducens grown with iron (III) citrate or nitrate as terminal electron acceptor.. Proteomics. 7(22):4148-57.

Zhang T, Gannon SM, Nevin KP, Franks AE, Lovley DR. 2010. Stimulating the anaerobic degradation of aromatic hydrocarbons in contaminated sediments by providing an electrode as the electron acceptor.. Environ Microbiol. 12(4):1011-20.

Anderson RT, Vrionis HA, Ortiz-Bernad I, Resch CT, Long PE, Dayvault R, Karp K, Marutzky S, Metzler DR, Peacock A et al.. 2003. Stimulating the in situ activity of Geobacter species to remove uranium from the groundwater of a uranium-contaminated aquifer.. Appl Environ Microbiol. 69(10):5884-91.

Ueki T, Nevin KP, Rotaru A-E, Wang L-Y, Ward JE, Woodard TL, Lovley DR. 2018. Strains Expressing Poorly Conductive Pili Reveal Constraints on Direct Interspecies Electron Transfer Mechanisms.. mBio. 9(4)

Malvankar NS, Vargas M, Nevin K, Tremblay P-L, Evans-Lutterodt K, Nykypanchuk D, Martz E, Tuominen MT, Lovley DR. 2015. Structural basis for metallic-like conductivity in microbial nanowires.. mBio. 6(2):e00084.

Vinogradov E, Korenevsky A, Lovley DR, Beveridge TJ. 2004. The structure of the core region of the lipopolysaccharide from Geobacter sulfurreducens.. Carbohydr Res. 339(18):2901-4.

Holmes DE, O'Neil RA, Vrionis HA, N'guessan LA, Ortiz-Bernad I, Larrahondo MJ, Adams LA, Ward JA, Nicoll JS, Nevin KP et al.. 2007. Subsurface clade of Geobacteraceae that predominates in a diversity of Fe(III)-reducing subsurface environments.. ISME J. 1(8):663-77.

Malvankar NS, Mester T, Tuominen MT, Lovley DR. 2012. Supercapacitors based on c-type cytochromes using conductive nanostructured networks of living bacteria.. Chemphyschem. 13(2):463-8.

Tan Y, Adhikari RY, Malvankar NS, Pi S, Ward JE, Woodard TL, Nevin KP, Xia Q, Tuominen MT, Lovley DR. 2016. Synthetic Biological Protein Nanowires with High Conductivity.. Small. 12(33):4481-5.

Shrestha PMalla, Rotaru A-E, Aklujkar M, Liu F, Shrestha M, Summers ZM, Malvankar N, Flores DCarlo, Lovley DR. 2013. Syntrophic growth with direct interspecies electron transfer as the primary mechanism for energy exchange.. Environ Microbiol Rep. 5(6):904-10.

Walker DJF, Nevin KP, Holmes DE, Rotaru A-E, Ward JE, Woodard TL, Zhu J, Ueki T, Nonnenmann SS, McInerney MJ et al.. 2020. Syntrophus conductive pili demonstrate that common hydrogen-donating syntrophs can have a direct electron transfer option.. ISME J. 14(3):837-846.

Lovley DR. 2017. Syntrophy Goes Electric: Direct Interspecies Electron Transfer.. Annu Rev Microbiol. 71:643-664.

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Ueki T, DiDonato LN, Lovley DR. 2017. Toward establishing minimum requirements for extracellular electron transfer in Geobacter sulfurreducens.. FEMS Microbiol Lett. 364(9)

Holmes DE, O'Neil RA, Chavan MA, N'guessan LA, Vrionis HA, Perpetua LA, Larrahondo JM, DiDonato R, Liu A, Lovley DR. 2009. Transcriptome of Geobacter uraniireducens growing in uranium-contaminated subsurface sediments.. ISME J. 3(2):216-30.

Malvankar NS, Vargas M, Nevin KP, Franks AE, Leang C, Kim B-C, Inoue K, Mester T, Covalla SF, Johnson JP et al.. 2011. Tunable metallic-like conductivity in microbial nanowire networks.. Nat Nanotechnol. 6(9):573-9.

Richter LV, Sandler SJ, Weis RM. 2012. Two isoforms of Geobacter sulfurreducens PilA have distinct roles in pilus biogenesis, cytochrome localization, extracellular electron transfer, and biofilm formation.. J Bacteriol. 194(10):2551-63.

Kim B-C, Qian X, Leang C, Coppi MV, Lovley DR. 2006. Two putative c-type multiheme cytochromes required for the expression of OmcB, an outer membrane protein essential for optimal Fe(III) reduction in Geobacter sulfurreducens.. J Bacteriol. 188(8):3138-42.

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Lovley DR. 2022. Untangling Geobacter sulfurreducens Nanowires.. mBio. 13(3):e0085022.

Orellana R, Leavitt JJ, Comolli LR, Csencsits R, Janot N, Flanagan KA, Gray AS, Leang C, Izallalen M, Mester T et al.. 2013. U(VI) reduction by diverse outer surface c-type cytochromes of Geobacter sulfurreducens.. Appl Environ Microbiol. 79(20):6369-74.

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Ortiz-Bernad I, Anderson RT, Vrionis HA, Lovley DR. 2004. Vanadium respiration by Geobacter metallireducens: novel strategy for in situ removal of vanadium from groundwater.. Appl Environ Microbiol. 70(5):3091-5.

Malvankar NS, Yalcin SEbru, Tuominen MT, Lovley DR. 2014. Visualization of charge propagation along individual pili proteins using ambient electrostatic force microscopy.. Nat Nanotechnol. 9(12):1012-7.

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