B. Sullivan scite author profile

SummaryAlcohol yields of 6.5% were obtained with Saccharomyces cerevisiae in lactasehydrolyzed acid whey permeate containing 30-35% total solids. Maximum alcohol yields obtained with Kluyveromyces fragilis were 4.5% in lactase-hydrolyzed acid whey permeate at a solids concentration of 20% and 3.7% in normal permeate at a solids concentration of 10%. Saccharomyces cerevisiae efficiently converted the glucose present in lactase-hydrolyzed whey permeates containing 5-30% total solids (2-13% glucose) to alcohol. However, the galactose, which comprised about half the available carbohydrate in lactase-hydrolyzed whey, was not utilized by S . cerevisiae, so that even though alcohol yields were higher when this organism was used, the process was wasteful in that a substantial proportion of the substrate was not fermented. For the process to become commercially feasible, an efficient means of rapidly converting both the galactose and glucose to alcohol must be found.

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Detection of Adulteration of Buttermilk Powder by Gel Electrophoresis

Malin

Basch

Shieh

et al. 1994

Journal of Dairy Science

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Alcohol production by selected yeast strains in lactase‐hydrolyzed acid whey

O'Leary

Green

Sullivan

et al. 1977

Biotech & Bioengineering

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SummaryEthanol production by Kluyveromyces fragilis and Saccharomyces cerevisiae was studied using cottage cheese whey in which 80 to 90% of the lactose present had been prehydrolyzed to glucose and galactose. Complete fermentation of the sugar by K . fragilis required 120 hr at 30°C in lactase-hydrolyzed whey compared to 72 hr in nonhydrolyzed whey. This effect was due to a diauxic fermentation pattern in lactase-hydrolyzed whey with glucose being fermented before galactose. Ethanol yields of about 2% were obtained in both types of whey when K . fragilis was the organism used for fermentation. Saccharomyces cerevisiae produced alcohol from glucose more rapidly than K . jragilis, but galactose was fermented only when S. cerevisiae was pregrown on galactose. Slightly lower alcohol yields were obtained with S. cerevisiae, owing to the presence of some lactose in the whey which was not fermented by this organism. Although prehydrolysis of lactose in whey and whey fractions is advantageous in that microbial species unable to ferment lactose may be utilized, diauxie and galactose utilization problems must be considered.

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Lipases of Wheat. I

Sullivan¹,

Howe²

1933

J. Am. Chem. Soc.

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B. Sullivan

Proteolysis and Rheology of Low Fat and Full Fat Mozzarella Cheeses Prepared from Homogenized Milk

Influence of lactose hydrolysis and solids concentration on alcohol production by yeast in acid whey ultrafiltrate

Detection of Adulteration of Buttermilk Powder by Gel Electrophoresis

Alcohol production by selected yeast strains in lactase‐hydrolyzed acid whey

Lipases of Wheat. I

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