Enhanced Conversion of Lactose to Glycerol by Kluyveromyces fragilis Utilizing Whey Permeate as a Substrate.

Kluyveromyces fragilis (CBS 397) is a nonhalophilic yeast which is capable of lactose utilization from whey permeate and high glycerol production under anaerobic growth conditions. However, the optimum yields of glycerol (11.6 mg/ml of whey permeate medium) obtained in this study occurred only in the presence of 1% Na(2)SO(3) as a steering agent. The use of other concentrations of Na(2)SO(3), as well as 5% NaCl and 1% ascorbic acid, had no or detrimental effects on cell growth, lactose utilization, and glycerol production. Glycerol yields were greater in cultures grown from a light inoculum of K. fragilis than in cultures in which a resuspended mass of cells was introduced into the medium. The results of this study suggest that this strain of K. fragilis may be useful commercially in the utilization of cheese whey lactose and the concomitant production of glycerol.

Amylolysis of raw corn by Aspergillus niger for simultaneous ethanol fermentation.

The novelty of this approach was hydrolysis of the raw starch in ground corn to fermentable sugars that are simultaneously fermented to ethanol by yeast in a non-sterile environment. Thus, the conventional cooking step can be eliminated for energy conservation. A koji of Aspergillus niger grown on whole corn for 3 days was the crude enzyme source. A ratio of 0.2 g dry koji/g total solids was found sufficient. Optimum pH was 4.2. Ethanol concentration was 7.7% (w/w) in the aqueous phase with 92% raw starch conversion. Agitation increased rate. Sacharification was the rate-limiting step. The initial ethanol concentration preventing fermentation was estimated to be 8.3% by weight.

Oxygen-17 and deuterium nuclear magnetic resonance studies of lysozyme hydration.

Oxygen-17 and deuterium NMR studies of lysozyme hydration are reported for a wide range of lysozyme concentrations, and the relationship between water "activity" and water mobility in the lysozyme-water system as determined by high-field NMR is examined. In a first approximation, the effect of lysozyme activity on hydration is considered to be small because of the relatively low charge on lysozyme at pH 7 and the absence of salt in the lysozyme solutions. Correlation times are determined for tightly bound water, weakly bound water, and "multilayer" or trapped water in lysozyme at 20 degrees C. Hydration numbers are also determined for these three different water populations interacting with lysozyme. Good agreement is found between the hydration numbers determined by 17O NMR and the calculations based on the D'Arcy and Watt analysis of water sorption isotherms for proteins that considered three major water populations in hydrated lysozyme. A molecular interpretation for the three components in the D'Arcy and Watt theory of sorption isotherms is also proposed on the basis of our NMR results. Previous proton NMR spin-echo results are shown to be consistent with our findings by 17O NMR and support the view that there are at least four regions of distinct hydration behavior of lysozyme which span the whole range from solutions to solid powders.

Effect of controlled atmosphere on growth of mold on synthetic media and fruit.

Growth of seven spoilage molds on agar plates at several temperatures in both controlled atmosphere (CA) and in air was studied. Each mold responded somewhat differently to CA at each temperature; however, there were some general tendencies. The lag phase was generally increased by CA and, in some cases, was substantially extended when incubation was just above the minimum growth temperature. The mycelial structure of molds seems to be different when grown in CA than when grown in air. With only two exceptions of 24 holding conditions, the maximum amount of mycelia was always less in CA than in air. Spore development varied with each mold at each temperature; generally, it was considerably less in CA than in air. CA storage of cherries above 34 F (1 C) did not retard mold infection to any extent; at 34 F, mold growth was inhibited and storage life was extended several days as compared to air storage. CA storage of strawberries at 34 F resulted in a mold-free product after 7 days of incubation, whereas the air-stored berries were slightly infected. However, when mishandled berries showing some mold growth were stored at 34 F, CA did not stop further mold growth.

Growth of Staphylococcus aureus MF31 on the top and cut surfaces of Southern custard pies.

A Staphylococcus strain was inoculated on the top and cut surfaces of freshly baked Southern custard pies which were then packaged in a pasteboard carton and held at 30 C. Daily plate counts of surface sections 0.3 inch (0.76 cm) in thickness were made. The top surface inoculum showed a 24-hr lag time. This was due to the protective action of a top cakelike layer as shown by homogenization of the mix and coating of the surface. Substitution of all sweeteners with dextrose completely inhibited growth on the top surface. Further addition of dextrose to lower water activity (Aw) to 0.9 prevented growth on the cut surface as well, but such pies were organoleptically unacceptable. Growth on the top surface could also be prevented by 80 mug of undissociated sorbic acid per g in combination with 100 mug of undissociated propionic acid per g in the baked pie. Growth on the cakelike top surface was always retarded longer than on the cut surface provided the packaging allowed evaporation of surface moisture. Reducing the Aw of a different type of cream pie to 0.907 prevented top surface growth. It was concluded that baked cream pies with a cakelike top layer could be marketed with a "refrigerate after opening" label, provided the package maintains the moisture gradient caused by the surface skin and either a combination of 80 mug of undissociated sorbic acid per g and 100 mug undissociated propionic acid per g is present in the baked pie or the Aw of the baked pie is 0.920 or lower.