1 Nübel, U, "primers to amplify 16S rRNA genes from cyanobacteria" 63 : 3327-3332, 1997
2 성하진, "USE OF ACETATE FOR ENRICHMENT OF ELECTROCHEMICALLY ACTIVE MICROORGANISMS AND THEIR 16S RDNA ANALYSES" 223 : 185-191, 200306
3 Juretschko, S, "The Microbial community composition of a nitrifying-denitrifying activated sludge from an industrial sewage treatment plant analyzed by the full-cycle rRNA Approach" 25 : 84-99, 2002
4 Tebo, B. M, "Sulfate-reducing bacterium grows with Cr (VI), U (VI), Mn (IV), and Fe (III) as electron acceptors" 162 : 193-198, 1998
5 Meier, H, "Specific oligonucleotide probes for In situ detection of a major group of gram-positive bacteria with Low DNA G+C content" 22 : 186-196, 1999
6 Liu, H, "Production of electricity during wastewater treatment using a single chamber microbial fuel cell" 38 : 2281-2285, 2004
7 Wagner, M, "Probing activated sludge with oligonucleotides specific for proteobacteria: inadequacy of culture-dependent methods for describing microbial community structure" 59 : 1520-1525, 1993
8 Neef, A., "Monitoring a widespread bacterial group: in situ detection of planctomycetes with 16S rRNA-targeted probes" 144 : 3257-3266, 1998
9 Eschenhagen, M, "Molecular characterization of the microbial community structure in two activated sludge systems for the advanced treatment of domestic effluents" 37 : 3224-3232, 2003
10 Kim, T. S, "Modulation of Clostridium acetobutylicum fermantation by electrochemically supplied reducing equivalent" 10 : 123-128, 1998
1 Nübel, U, "primers to amplify 16S rRNA genes from cyanobacteria" 63 : 3327-3332, 1997
2 성하진, "USE OF ACETATE FOR ENRICHMENT OF ELECTROCHEMICALLY ACTIVE MICROORGANISMS AND THEIR 16S RDNA ANALYSES" 223 : 185-191, 200306
3 Juretschko, S, "The Microbial community composition of a nitrifying-denitrifying activated sludge from an industrial sewage treatment plant analyzed by the full-cycle rRNA Approach" 25 : 84-99, 2002
4 Tebo, B. M, "Sulfate-reducing bacterium grows with Cr (VI), U (VI), Mn (IV), and Fe (III) as electron acceptors" 162 : 193-198, 1998
5 Meier, H, "Specific oligonucleotide probes for In situ detection of a major group of gram-positive bacteria with Low DNA G+C content" 22 : 186-196, 1999
6 Liu, H, "Production of electricity during wastewater treatment using a single chamber microbial fuel cell" 38 : 2281-2285, 2004
7 Wagner, M, "Probing activated sludge with oligonucleotides specific for proteobacteria: inadequacy of culture-dependent methods for describing microbial community structure" 59 : 1520-1525, 1993
8 Neef, A., "Monitoring a widespread bacterial group: in situ detection of planctomycetes with 16S rRNA-targeted probes" 144 : 3257-3266, 1998
9 Eschenhagen, M, "Molecular characterization of the microbial community structure in two activated sludge systems for the advanced treatment of domestic effluents" 37 : 3224-3232, 2003
10 Kim, T. S, "Modulation of Clostridium acetobutylicum fermantation by electrochemically supplied reducing equivalent" 10 : 123-128, 1998
11 Lovley, D. R, "Hydrogen and formate oxidation coupled to dissimilatory reduction of iron or manganese by Alteromonas putrefaciens" 55 : 700-706, 1989
12 Caccavo, F, "Geovibrio ferrireducens, a phylogenetically distinct dissimilatory Fe (III)- reducing bacterium" 165 : 370-376, 1996
13 Lovley, D. R, "Geobacter metallireducens gen. nov. sp. now., a microorganism capable of coupling the complete oxidation of organic compounds to the reduction of iron, and other metals" 159 : 336-344, 1993
14 Kim, B. H, "Enrichment of microbial community generating electrocity using a fuel cell type electrochemical cell" 63 : 672-681, 2004
15 Kim, B. H, "Enrichment of microbial community generating electricity using a fuel-cell-type electrochemical cell" 63 : 672-681, 2004
16 Bond, D. R, "Electrode-reducing microorganisms that harvest energy from marine sediments" 295 : 483-485, 2002
17 Park, D. H, "Electricity generation in microbial fuel cells using neutral red as an electronophore" 66 : 1292-1297, 2000
18 Chaudhuri, S. K, "Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells" 21 : 1229-1232, 2003
19 Kim, G. T, "Dissimilatory Fe (III) reduction by electrochemically active lactic acid bacterium phylogenetically related to Enterococcus gallinarum isolated from submerged soil" 99 : 978-987, 2005
20 Wagner, M, "Development of an rRNA-targeted oligonucleotide probe specific for the genus acinetobacter and its application for in situ monitoring in activated sludge" 60 : 792-800, 1994
21 Aelterman, P, "Continuous electricity generation at high voltages and currents using stacked microbial fuel cells" 40 : 3388-3394, 2006
22 Adav, S. S, "Biological nitrificationdenitrification with alternating oxic and anoxic operations using aerobic granules" 84 : 1181-1189, 2009
23 Glöckner, F. O, "Bacterioplankton compositions of lakes and oceans: a first comparison based on fluorescence in situ hybridization" 65 : 3721-3726, 1999
24 Lovley, D. R, "Acetate oxidation by dissimilatory Fe (III) reducers" 58 : 3205-3206, 1992
25 Manz, W, "Abundance and spatial organization of gram-negative sulfatereducing bacteria in activated sludge investigated by in situ probing with specific 16S rRNA targeted oligonucleotides" 25 : 43-61, 1998
26 Park, H. S, "A novel electrochemically active and Fe(III)-reducing bacterium phylogenetically related to Clostridium butyricum isolated from a microbial fuel cell" Academic Press 7 (7): 297-306, 200108
27 Kim, H. J, "A mediator-less microbial fuel cell using a metal reducing bacterium, Shewanella putrefaciens" 30 : 145-152, 2002