Electrochemical and Biochemical Analysis of Ethanol Fermentation of Zymomonas mobilis KCCM11336
2009
Jeon, B.Y., Seokyeong University, Seoul, Republic of Korea | Hwang, T.S., Seokyeong University, Seoul, Republic of Korea | Park, D.H., Seokyeong University, Seoul, Republic of Korea
An electrochemical bioreactor (ECB) composed of a cathode compartment and an air anode was used in this study to characterize the ethanol fermentation of Zymomonas mobilis. The cathode and air anode were constructed of modified graphite felt with neutral red (NR) and a modified porous carbon plate with cellulose acetate and porous ceramic membrane, respectively. The air anode operates as a catalyst to generate protons and electrons from water. The growth and ethanol production of Z. mobilis were 50% higher in the ECB than were observed under anoxic nitrogen conditions. Ethanol production by growing cells and the crude enzyme of Z. mobilis were significantly lower under aerobic conditions than under other conditions. The growing cells and crude enzyme of Z. mobilis did not catalyze ethanol production from pyruvate and acetaldehyde. The membrane fraction of crude enzyme catalyzed ethanol production from glucose, but the soluble fraction did not. NADH was oxidized to NAD+ in association with H₂O₂ reduction, via the catalysis of crude enzyme. Our results suggested that NADH/NAD+ balance may be a critical factor for ethanol production from glucose in the metabolism of Z. mobilis, and that the metabolic activity of both growing cells and crude enzyme for ethanol fermentation may be induced in the presence of glucose.
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