Fermentation of whey by Clostridium acetobutylicum yielded butanol and acetone in a ratio of approximately 100:1. This ratio amounted to only 2:1 in synthetic media with glucose, lactose, or glucose plus galactose as substrates. Removal of citrate from whey and addition of minerals resulted in an increase in the amount of acetone produced. Experiments carried out in a chemostat with a low-phosphate synthetic medium revealed that the butanol/acetone ratio could be increased from 2:1 to 3.8:1 by cofermentation of L-lactate and from 2:1 to 8:1 by iron limitation. The performance of the fermentation in a low-iron glucose medium above pH 5.1 yielded L-lactate as the main product.
Microbiological and Enzymatic Transformations in the Synthesis of Prostacyclin Analogues
For the synthesis of prostacyclin analogues, enzymatic and microbiological transformations are described leading to homochiral bicyclooctane building units.
A clostridial strain has been isolated that produced n-butanol, ethanol, butyrate, and acetate as major fermentation products from glucose but no acetone. At a pH of 6.6, n-butanol was formed by this microorganism only during growth. On the basis of its physiological characteristics and DNA-DNA homology data, the strain was assigned to the "Clostridium tetanomorphum" group (S. Nakamura, I. Okado, T. Abe, and S. Nishida, J. Gen. Microbiol. 113:29-35, 1979). All members of this group were shown to produce n-butanol from glucose as the major fermentation product, whereas C. cochlearium produced it in only minor amounts.
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