Summary
The anaerobic conversion of xylose to ethanol by a genetically engineredE. coli B (pLOI297) was investigated using anaerobically and aerobically grown cultures as inocula. Using anaerobically grown cells, an increase in the inoculation density from 50 to 340 mg dry wt. cells/L resulted in an increase in the overall volumetric productivity from 0.57 to 0.71 g/L/h. At the higher inoculation density, substitution of the anaerobic inoculum by aerobically grown cells resulted in a 15% reduction in volumetric productivity (0.61 g/L/h) that was caused by the introduction of a lag period during which the aerobic inoculum adapted to the anaerobic environment. In all cases, the ethanol yield from xylose approached the theoretical maximum and seemed unaffected by the physiological history of the inoculum with respect to aeration. It is concluded that aeration should be avoided in the production of high performance starter cultures.
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Lawford, H.G., Rousseau, J.D. Effect of aerobically generated inoculum on xylose fermentation by an ethanologenic recombinantE. coli . Biotechnol Lett 16, 527–532 (1994). https://doi.org/10.1007/BF01023338
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DOI: https://doi.org/10.1007/BF01023338