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Lizik W, Im J, Semrau JD, Barcelona MJ. 2013. A field trial of nutrient stimulation of methanotrophs to reduce greenhouse gas emissions from landfill cover soils.. J Air Waste Manag Assoc. 63(3):300-9.

Lloyd JR, Sole VA, Van Praagh CV, Lovley DR. 2000. Direct and Fe(II)-mediated reduction of technetium by Fe(III)-reducing bacteria.. Appl Environ Microbiol. 66(9):3743-9.

Lloyd JR, Lovley DR, Macaskie LE. 2003. Biotechnological application of metal-reducing microorganisms.. Adv Appl Microbiol. 53:85-128.

Lloyd JR, Lovley DR. 2001. Microbial detoxification of metals and radionuclides.. Curr Opin Biotechnol. 12(3):248-53.

Lloyd JR, Leang C, Hodges Myerson AL, Coppi MV, Cuifo S, Methe B, Sandler SJ, Lovley DR. 2003. Biochemical and genetic characterization of PpcA, a periplasmic c-type cytochrome in Geobacter sulfurreducens.. Biochem J. 369(Pt 1):153-61.

Lloyd JR, Blunt-Harris EL, Lovley DR. 1999. The periplasmic 9.6-kilodalton c-type cytochrome of Geobacter sulfurreducens is not an electron shuttle to Fe(III).. J Bacteriol. 181(24):7647-9.

Lonergan DJ, Jenter HL, Coates JD, Phillips EJ, Schmidt TM, Lovley DR. 1996. Phylogenetic analysis of dissimilatory Fe(III)-reducing bacteria.. J Bacteriol. 178(8):2402-8.

Long JE, Renzette N, Sandler SJ. 2009. Suppression of constitutive SOS expression by recA4162 (I298V) and recA4164 (L126V) requires UvrD and RecX in Escherichia coli K-12.. Mol Microbiol. 73(2):226-39.

Long J E, Massoni SC, Sandler SJ. 2010. RecA4142 causes SOS constitutive expression by loading onto reversed replication forks in Escherichia coli K-12.. J Bacteriol. 192(10):2575-82.

Long J E, Renzette N, Centore RC, Sandler SJ. 2008. Differential requirements of two recA mutants for constitutive SOS expression in Escherichia coli K-12.. PLoS One. 3(12):e4100.

Lopper M, Boonsombat R, Sandler SJ, Keck JL. 2007. A hand-off mechanism for primosome assembly in replication restart.. Mol Cell. 26(6):781-93.

Losse H. 1975. Treatment of renal hypertension.. Clin Nephrol. 4(5):194-7.

Lovley DR. 2022. Microbial nanowires.. Curr Biol. 32(3):R110-R112.

Lovley DR. 1991. Dissimilatory Fe(III) and Mn(IV) reduction.. Microbiol Rev. 55(2):259-87.

Lovley DR, Phillips EJ. 1986. Availability of ferric iron for microbial reduction in bottom sediments of the freshwater tidal potomac river.. Appl Environ Microbiol. 52(4):751-7.

Lovley DR. 2009. Future shock from the microbe electric.. Microb Biotechnol. 2(2):139-41.

Lovley DR, Dwyer DF, Klug MJ. 1982. Kinetic analysis of competition between sulfate reducers and methanogens for hydrogen in sediments.. Appl Environ Microbiol. 43(6):1373-9.

Lovley DR. 2006. Microbial fuel cells: novel microbial physiologies and engineering approaches.. Curr Opin Biotechnol. 17(3):327-32.

Lovley DR, Giovannoni SJ, White DC, Champine JE, Phillips EJ, Gorby YA, Goodwin S. 1993. Geobacter metallireducens gen. nov. sp. nov., a microorganism capable of coupling the complete oxidation of organic compounds to the reduction of iron and other metals.. Arch Microbiol. 159(4):336-44.

Lovley DR, Nevin KP. 2013. Electrobiocommodities: powering microbial production of fuels and commodity chemicals from carbon dioxide with electricity.. Curr Opin Biotechnol. 24(3):385-90.

Lovley DR. 2000. Anaerobic benzene degradation.. Biodegradation. 11(2-3):107-16.

Lovley DR, Phillips EJ. 1989. Requirement for a Microbial Consortium To Completely Oxidize Glucose in Fe(III)-Reducing Sediments.. Appl Environ Microbiol. 55(12):3234-6.

Lovley DR. 2017. e-Biologics: Fabrication of Sustainable Electronics with "Green" Biological Materials.. mBio. 8(3)

Lovley DR, White RH, Ferry JG. 1984. Identification of methyl coenzyme M as an intermediate in methanogenesis from acetate in Methanosarcina spp.. J Bacteriol. 160(2):521-5.

Lovley DR, Phillips EJ. 1994. Reduction of Chromate by Desulfovibrio vulgaris and Its c(3) Cytochrome.. Appl Environ Microbiol. 60(2):726-8.

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