Journal of Introductory Biology Investigations

Saccharomyces cerevisiae, baker’s yeast, has become a major contributor to various areas of manufacturing–like baking, brewing, and biofuel production. Fermentation of yeast produces products essential for each of these processes. However, fermentation is extremely sensitive to various factors–with the type of sugar present being one of them. We explored how the presence of a monosaccharide sugar, dextrose, and disaccharide sugars, sucrose and lactose, affected the rate of fermentation in baker’s yeast. We hypothesized that the more complex sugars, sucrose and lactose, would have a lower rate of fermentation and, thus, a lower carbon dioxide output than the simple sugar dextrose. We recorded the carbon dioxide production of the yeast for the three different sugars over fifteen-minute periods in order to calculate the rate of fermentation. The results concluded that the yeast produced carbon dioxide at a drastically slower rate in the presence of sucrose and lactose than it did in the presence of dextrose. Therefore, sucrose and lactose induced a slower rate of fermentation than dextrose–with lactose having the slowest. We can then conclude that Saccharomyces cerevisiae can break down monosaccharide sugars faster than it can break down disaccharide sugars, which may be important information to know in order to develop the ideal sugar ratio for commercial yeast usage.

Adam, A.C., Rubio-Texeria, M., Polaina, J. 2010. Lactose: the milk sugar from a biotechnological perspective. Critical Review in Food Science and Nutrition. 44: 553-557.

Avigad, G. 1982. Sucrose and other disaccharides. Encyclopedia of Plant Physiology. 13: 217-347.

Badotti, F., Dario, M.G., Alves, S.L., Cordioli, M.L., Miletti, L.C., Araujo, P.S., Stambuk, B.U. 2008. Switching the mode of sucrose utilization by Saccharomyces cerevisiae. Microbial Cell Factories. 7: 1-11.

De Deken, R.H. 1966. The crabtree effect: a regulatory system in yeast. Microbiology Society. 44.

Domingues, L. 2009. Metabolic engineering of Saccharomyces cerevisiae for lactose/whey fermentation. Bioengineered Bugs. 1: 164-171.

French, D.P. 2021. Investigating biology: a laboratory resource manual. 2021 Edition. Fountainhead Press: South Lake, Texas.

Johnston, M. 1999. Feasting, fasting and fermenting: glucose sensing in yeast and other cells. Science Direct. 15: 29-33.

Randez-Gil, F., Sans, P., and Prieto, J.A. 1999. Engineering baker’s yeast: room for improvement. Science Direct. 17: 237-244.