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PHYSIOLOGY AND BIOTECHNOLOGY

Thermoanaerobacter ethanolicus Growth and Product Yield from Elevated Levels of Xylose or Glucose in Continuous Cultures

Lynda S. Lacis, Hugh G. Lawford
Lynda S. Lacis
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Hugh G. Lawford
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ABSTRACT

The performance of Thermoanaerobacter ethanolicus was evaluated in continuous culture with media containing concentrations of xylose (8 to 20 g/liter) greater than those previously reported. The ethanol yield declined from to 0.42 to 0.29 g of ethanol per g of xylose consumed when input xylose was increased from 4 to 20 g/liter. Yields of both total C2 and C3 products from consumed xylose and of cell biomass from ATP produced declined as the input xylose concentration was increased, which was not the case when glucose was the substrate. This suggested that yeast extract functioned as a significant energy and carbon source for cells in fermentations of xylose but not of glucose. The feasibility of this interpretation was confirmed by (i) the calculation of the products theoretically obtainable from yeast extract and (ii) the observation of significant quantities of fermentation products in inoculated sugar-free media. Markedly different patterns of metabolism for the two sugar substrates were also evidenced by the cell yield for glucose being twice that of xylose at elevated sugar concentrations. It was noted that caution must be exerted when results obtained at low xylose concentrations are extrapolated to predict those which can be obtained at higher concentrations.

FOOTNOTES

  • ↵* Corresponding author.

  • ↵† Present address: Department of Genetics, University of Melbourne, Parkville, Melbourne, Victoria 3052, Australia.

  • Copyright © 1991, American Society for Microbiology
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Thermoanaerobacter ethanolicus Growth and Product Yield from Elevated Levels of Xylose or Glucose in Continuous Cultures
Lynda S. Lacis, Hugh G. Lawford
Applied and Environmental Microbiology Feb 1991, 57 (2) 579-585; DOI:

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Thermoanaerobacter ethanolicus Growth and Product Yield from Elevated Levels of Xylose or Glucose in Continuous Cultures
Lynda S. Lacis, Hugh G. Lawford
Applied and Environmental Microbiology Feb 1991, 57 (2) 579-585; DOI:
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