In recent years, industrial fermentation researchers have shifted their attention from liquid to solid and semisolid culture conditions. We converted liquid cultures to the semisolid mode by adding high levels of gelatin. Previous studies on liquid cultures have revealed the inhibitory activity of mineral salts, such as NaCl, on the fermentation of sugars by yeasts. We made a kinetic study of the effects of 1 to 5% (wt/vol) NaCl on the alcoholic fermentations of glucose by
Saccharomyces cerevisiae
in a growth medium containing 16% gelatin. Our results showed that the effect of high salt content on semisolid culture is essentially the same as the effect on liquid culture; i.e., as the salt content increased, the following occurred: (i) the growth of yeasts decreased, (ii) the lag period of the yeast biomass curve lengthened, (iii) the sugar intake was lowered, (iv) the yield of ethanol was reduced, and (v) the production of glycerol was increased. We observed a new relationship correlating the area of kinetic hysteresis with ethanol production rate, acetaldehyde concentration, and the initial NaCl concentration.
During a study of the effects of a high level of NaCl on the content of free intracellular amino acids in baker's yeast grown in aerated fermentation of glucose it was found (Malaney et al. 1988, 1989; Malaney and Tanner 1988) that 0.6 mol/L exogenous NaCl significantly increased the content of free intracellular citrulline, glutamine, ornithine, arginine and lysine (all basic amino acids) over that observed at zero mol/L exogenous NaCl. (Exogenous is defined as salt added beyond that present in the mineral salts in the culture medium.) This paper describes the production and relative relationships of both extracellular and free intracellular amino acids by S. cerevisiae under conditions of high NaCl content in the growth medium at pH 5 and 32 degrees C. For early culture times (6 h), the production of glutamine, citrulline, valine, isoleucine, ornithine, lysine and histidine were all enhanced by the addition of NaCl. For late times (24 h), except for ornithine, the early-time-enhanced amino acids continued to be enhanced by the addition of NaCl. In addition, the yields of several other amino acids also were increased by exogenous salt at this late time. These include aspartic acid, threonine, glutamic acid, cystine, methionine, tyrosine, phenylalanine and arginine.
HORN. Coliforms, enterococci, thermodurics, thermophiles, and psychrophiles in untreated farm pond waters. Appl. Microbiol. 10:44-51. 1962.-Untreated waters from ten farm ponds located in central, north central, southeastern, and southwestern Ohio were examined for numbers of coliforms, enterococci, thermodurics, thermophiles, and psychrophiles. The median population densities per 100 ml water for all ponds were: coliforms, 23; enterococci, 3.6; thermodurics, 6,000; thermophiles, 450; psychrophiles, 1,000. The results indicate that these farm pond waters were only lightly polluted and suggest that farm ponds, properly maintained, are a source of raw water of high bacteriological quality, requiring a minimum of treatment to be made suitable for domestic and livestock purposes.
In an attempt to grow microorganisms other than fungi using a solid-state fermentation process, a model system of Baker's yeast (Saccharomyces cerevisiae) was cultured in an air-fluidized bed fermentor. A semisolid potato mixture (pretreated with alpha-amylase) was used for the substrate in this highly aerated system. The growth of Baker's yeast in this air-fluidized bed process was easily controllable and very reproducible. Once feasible moisture levels and air flow rates were determined, the independent variables studied were the amount of the enzyme used for digesting the potato starch, the size of the yeast inoculum, and the concentration of the added defined medium.
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