Abstract
The effects of combining two strategies, recycling NAD and improving the availability of NADH, on hydrogen production in Enterobacter aerogenes were investigated. The NAD synthetase encoded by nadE gene was homologously overexpressed in AB91002-O, which had been obtained previously, to increase the intracellular concentration of the NAD(H/+) pool. This overexpression was duplicated in mutant strains in which the phosphoenolpyruvate carboxylase (PEPC) gene (ppc) and hybO gene were knocked out, yielding AB91102-OP (ΔhybO/Δppc), AB91102-ON (ΔhybO/nadE), and AB91102-OP/N (ΔhybO/Δppc/nadE). Chemostat experiments showed that the total NAD(H) pool size in AB91102-ON increased 2-fold compared with the control strain AB91102-OC, but the NADH/NAD+ ratio decreased by 24%. Metabolic analysis of batch experiments indicated that a larger NAD(H/+) pool and inactivation of PEPC led to a significant shift in metabolic patterns, whereas a smaller NADH/NAD+ ratio improved glucose uptake. Thus, compared with the control strain, the hydrogen yields per glucose of the mutant strains AB91102-OP, AB91102-ON, and AB91102-OP/N were enhanced by 36.2%, 66.0%, and 149%, respectively, and the total volumes of hydrogen production increased by 27%, 165%, and 301%, respectively. The maximum hydrogen production of 5.1 L/L was achieved by AB91102-OP/N, suggesting that the double modification strategy exhibits markedly positive synergistic effects on hydrogen production.
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