[摘要] Products derived from the central aerobic metabolic pathway inEscherichia coli often compete with the acetate-producing pathwayspoxB and ackA-pta for glucose. The production of isoamyl acetate from acetyl-CoA by ATF2, a yeast alcohol acetyltransferase, was a model system to demonstrate the beneficial effects of reducing aerobic acetate production. Ester production was 80% higher in the poxB, ackA-ptastrain (0.18 mM) than found in the single ackA-pta mutant, when both overexpressed the PDH complex, panK, andATF2. Anaerobically, succinate was produced alongside isoamyl acetate to maintain the proper redox balance between NADH and NAD+. The two compounds could be easily separated in an industrial setting because of the difference in their volatilities. An ldhA, adhE double mutant strain served as the control strain to test the effect of an additionalackA-pta mutation. The triple mutant produced 36% more ester (9.4 mM) and 7 times more succinate (45.5 mM) than the control.