1 Hommes R, "The influence of the culture pH value on the direct glucose oxidative pathway in Klebsiella pneumoniae NCTC 418" 151 : 261-267, 1989
2 Bouvet OMM, "Taxonomic diversity of the D-glucose oxidation pathway in the Enterobacteriaceae" 39 : 61-67, 1989
3 Sun W-J, "Semi-continuous production of 2-keto-gluconic acid by Pseudomonas fluorescens AR4 from rice starch hydrolysate" 110 : 546-551, 2012
4 Wei D, "Red recombinase assisted gene replacement in Klebsiella pneumoniae" 39 : 1219-1226, 2012
5 Neijssel O, "Production of gluconic acid and 2-ketogluconic acid by Klebsiella aerogenes NCTC 418" 105 : 183-185, 1975
6 Misenheimer T, "Production of 2-ketogluconic acid by Serratia marcescens" 13 : 393-396, 1965
7 Tlemcani LL, "Physiological states and energetic adaptation during growth of Pseudomonas putida mt-2 on glucose" 190 : 141-150, 2008
8 Baneyx F, "Optimization of growth conditions for the production of proteolytically-sensitive proteins in the periplasmic space of Escherichia coli" 36 : 14-20, 1991
9 Wei D, "New strategy to improve efficiency for gene replacement in Klebsiella pneumoniae" 40 : 523-552, 2013
10 Toyama H, "Membrane-bound, 2-keto-D-gluconateyielding D-gluconate dehydrogenase from Gluconobacter dioxyacetonicus IFO 3271: molecular properties and gene disruption" 73 : 6551-6556, 2007
1 Hommes R, "The influence of the culture pH value on the direct glucose oxidative pathway in Klebsiella pneumoniae NCTC 418" 151 : 261-267, 1989
2 Bouvet OMM, "Taxonomic diversity of the D-glucose oxidation pathway in the Enterobacteriaceae" 39 : 61-67, 1989
3 Sun W-J, "Semi-continuous production of 2-keto-gluconic acid by Pseudomonas fluorescens AR4 from rice starch hydrolysate" 110 : 546-551, 2012
4 Wei D, "Red recombinase assisted gene replacement in Klebsiella pneumoniae" 39 : 1219-1226, 2012
5 Neijssel O, "Production of gluconic acid and 2-ketogluconic acid by Klebsiella aerogenes NCTC 418" 105 : 183-185, 1975
6 Misenheimer T, "Production of 2-ketogluconic acid by Serratia marcescens" 13 : 393-396, 1965
7 Tlemcani LL, "Physiological states and energetic adaptation during growth of Pseudomonas putida mt-2 on glucose" 190 : 141-150, 2008
8 Baneyx F, "Optimization of growth conditions for the production of proteolytically-sensitive proteins in the periplasmic space of Escherichia coli" 36 : 14-20, 1991
9 Wei D, "New strategy to improve efficiency for gene replacement in Klebsiella pneumoniae" 40 : 523-552, 2013
10 Toyama H, "Membrane-bound, 2-keto-D-gluconateyielding D-gluconate dehydrogenase from Gluconobacter dioxyacetonicus IFO 3271: molecular properties and gene disruption" 73 : 6551-6556, 2007
11 Weenk G, "Ketogluconate formation by Gluconobacter species" 20 : 400-405, 1984
12 Hao J, "Isolation and characterization of microorganisms able to produce 1,3-propanediol under aerobic conditions" 24 : 1731-1740, 2008
13 Xu Y-Z, "Influence of dhaT mutation of K. pneumoniae on 1,3-propanediol fermentation" 27 : 1491-1497, 2011
14 Ma C, "Enhanced 2,3-butanediol production by Klebsiella pneumoniae SDM" 82 : 49-57, 2009
15 Sharma N, "Electron transport system associated with direct glucose oxidation in Gluconobacter oxydans" 14 : 391-396, 1992
16 Chia M, "DO-stat f ed-batch production of 2-keto-D-gluconic acid from cassava using immobilized Pseudomonas aeruginosa" 78 : 759-765, 2008
17 Castillo TD, "Convergent peripheral pathways catalyze initial glucose catabolism in Pseudomonas putida: genomic and flux analysis" 189 : 5142-5152, 2007
18 Swanson BL, "Characterization of the 2-ketogluconate utilization operon in Pseudomonas aeruginosa PAO1" 37 : 561-573, 2000
19 Wei D, "2-Ketogluconic acid production by Klebsiella pneumoniae CGMCC 1.6366" 40 : 561-570, 2013
20 Svitel J, "2-Ketogluconic acid production by Acetobacter pasteurianus" 53 : 53-63, 1995
21 Hwangbo H, "2-Ketogluconic acid production and phosphate solubilization by Enterobacter intermedium" 47 : 87-92, 2003