Wine Chemistry and Biochemistry

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1 Biochemistry of Alcoholic Fermentation 25


Nakagawa, Y., Sakumoto, N., Kaneko, Y., & Harashima, S. (2002) Mga2p is a putative sensor
for low temperature and oxygen to induce OLE1 transcription inSaccharomyces cerevisiae.
Biochem. Biophys. Res. Comm., 291, 707–713.
Nes, D.W., Janssen, G.G., Crumley, F.G., Kalinowska, M., & Akihisa, T. (1993) The structural
requirements of sterols for membrane function inSaccharomyces cerevisiae.Arch. Biochem.
Bioph., 300, 724–733.
Neuberg, C. (1946). The Biochemistry of Yeast.Ann. Rev. Biochem., 15, 435–472.
Ough, C.S., (1964). Fermentation rates of juice.I. Effects of temperature and composition on white
juice fermentation rates.Am. J. Enol. Vitic., 15, 167–177.
Pasteur, L. (1861) Influence de l’oxygene sur le d ́eveloppement de la lev ˆure et la fermentation alcoolique. Bulletin de la Soci ́et ́edeParis(R ́esum ́edeS ́eance du 28 juin 1861), 79–80. Peynaud, E., & Domercq, S. (1959) A review of microbiological problems in winemaking in France.Am. J. Enol. Vitic., 1, 69–77. Polakis, E.S., Bartley, W., & Meek, G.A. (1965) Changes in the activities of respiratory enzymes during the aerobic growth of yeast on different carbon sources.Biochem. J., 97, 298–302. Pretorius, I.S. (2000) Tailoring wine yeast for the new millennium: novel approcaches to the ancient art of winemaking.Yeast, 16, 675–729. Pretorius, I.S., Van der Westhuizen, T.J., & Augustyn, O.P.H. (1999) Yeast biodiversity in vineyards and wineries and its importante to the South African wine industry.S. Afr. J. Enol. Vitic., 20, 61–74. Prior, B.A., & Hohmann, S. (1996) Glycerol production and osmoregulation. In F.K. Zimmerman & K.D. Entian (Eds.),Yeast Sugar Metabolism: Biochemistry, Genetics, Biotechnology, and Applications(pp. 313–338). Boca Raton: CRC Press. Quinn, A.J., & Chapman, D. (1980) The dynamics of membrane structure.CRC Crit. Rev. Biochem., 8, 1–117. Racker, E. (1974) History of the Pasteur effect and its pathobiology.Mol. Cell. Biochem., 5, 17–23. Ratledge, C., & Evans, C.T. (1989) Lipids and their metabolism. In A.H. Rose & J.S. Harrison (Eds.),The Yeasts(2nd ed.), Vol 3 (pp. 367–455). London: Academic Press. Rib ́ereau-Gayon, P., Glories, Y., Maujean, A., & Dubourdieu, D. (2000a) Chemical nature, origins and consequences of the main organoleptic defects. In P. Rib ́ereau-Gayon (Ed.),Handbook of Enology, Vol 2, (pp. 209–253). Chichester: John Wiley & sons, Ltd. Rib ́ereau-Gayon, P., Glories, Y., Maujean, A., & Dubourdieu, D. (2000b) Conditions of yeast development. In P. Rib ́ereau-Gayon (Ed.),Handbook of Enology, Vol 2, (pp. 75–107). Chich- ester: John Wiley & sons, Ltd. Rib ́ereau-Gayon, P., Glories, Y., Maujean, A., & Dubourdieu, D. (2000c) Biochemistry of alcoholic fermentation and metabolic pathways of wine yeasts. In P. Rib ́ereau-Gayon (Ed.),Handbook of Enology, Vol 1, (pp. 51–74). Chichester: John Wiley & sons, Ltd. Rodr ́ıguez, S., S ́anchez, A., Mart ́ınez, J.M., Prieto, J.A., & Randez, F. (2007) Fluidization of Mem- brane Lipids Enhances the Tolerance of Saccharomyces cerevisiae to Freezing and Salt Stress. Appl. Environm. Microbiol., 73, 110–116. Romano, P., & Suzzi, G. (1993) Sulfur dioxide and wine microorganisms. In G.H. Fleet (Ed.),Wine Microbiology and Biotechnology(pp. 373–393). Reading: Harwood Academic. Rozes, N. (1992) Contribution al’ ́etude du m ́etabolisme lipidique deSaccharomyces cerevisiæ. Applicationaladiff ́erenciation des levures de vin. Th`ese de Doctorat de l’Universit ́edeBor-
deaux II, Bordeaux, France.
Sablayrolles, J.M., & Barre, P. (1986) Evaluation des besoins en oxygen de fermentations
alcooliques en conditions oenologiques sil ́ees.Sci. Aliments, 6, 373–383.
Sablayrolles, J.M., Dubois, C., Manginot, C., Roustan, J.L., & Barre, P. (1996). Efectiveness of
combined ammoniacal nitrogen and oxygen additions for completion of sluggish and stuck
fermentation.J. Fermen. Bioeng., 82, 377–381
Salmon, J.M., Vezinhet, F., & Barre, P. (1987) Anabolic role of L-malic acid inSaccharomyces
cerevisiaein anaerobiosis during alcoholic fermentation.FEMS Microbiol. Lett., 42, 213–220.

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