Wine Chemistry and Biochemistry

(Steven Felgate) #1

274 R. Baumes


Wakabayashi, H., Wakabayashi, M., Eisenreich, W., & Engel, K.H. (2004). Stereochemical course
of the generation of 3-mercaptohexanal and 3-mercaptohexanol by -lyase-catalysed cleavage
of cystein conjugates.J. Agric. Food Chem., 52, 110–116.
Williams, P.J., Strauss, C.R., &Wilson, B. (1980). Hydroxylatedlinalool derivatives as precursors
of volatile monoterpenes of Muscat grapes.J. Agric. Food Chem., 28, 766–771.
Williams, P.J., Strauss, C.R., &Wilson, B. (1982a). Novel monoterpene dissacharide glycoside of
Vitis viniferagrapes and wines.Phytochem., 21, 2013–2020.
Williams, P.J., Strauss, C.R., Wilson, B., & Massy-Westropp, R.A. (1982b). Studies on the hydroly-
sis ofVitis viniferamonoterpene precursor compounds and model -D-glucosides rationalizing
the monoterpene composition of grape.J. Agric. Food Chem., 30, 1219–1223.
Williams, P.J., Strauss, C.R., Wilson, B., & Massy-Westropp, R.A. (1983). Glycosides of 2-
phenylethanol and benzyl alcohol inVitis viniferagrapes.Phytochem., 22, 2039–2041.
Williams, P.J., Strauss, C.R., Wilson, B., & Dimitriadis, E. (1984). Recent studies into grape ter-
pene glycosides. In: J. Adda (Ed.),Progress in Flavour Research(pp. 349–357). Amsterdam:
Eselvier Science.
Williams, P.J., Cynkar, W., Francis, I.L., Gray, J.D., Hand, P.G., & Coombe, B.G. (1995). Quan-
tification of glycosides in grape juices and wines through a determination of glycosyl glucose.
J. Agric. Food Chem., 43, 121–128.
Wilson, B., Strauss, C.R., & Williams, P.J. (1984). Changes in free andglycosidically bound
monoterpenes in developping Muscat grapes.J. Agric. Food Chem., 32, 919–924.
Wilson, B., Strauss, C.R., & Williams, P.J. (1986). The distribution of free and glycosidally-bound
monoterpene among skin, juice and pulp fractions of some white grape varieties.Am.J.Enol.
Vitic., 37, 107–111.
Winterhalter, P. (1992). Oxygenated C 13 -norisoprenoids. Important flavor precursors. In: R. Teran-
ishi, G. Takeoka, & M. G ̈unther (Eds.), (pp. 98–115).Thermal and Enzymatic Conversions of
Precursors to Flavor Compounds. Washington: ACS Symposium Series 490.
Winterhalter, P. (1993). The generation of C 13 -norisoprenoid volatiles in Riesling wine. In: J.
Crouzet, C. Flanzy, C. Martin, & J.C. Sapis (Eds.),Connaissance aromatique des c ́epages
et qualit ́e des vins(pp.65–73). Montpellier: Revue franc ̧ aise d’oenologie.
Winterhalter, P., & Rouseff, R.(2000). Carotenoid-derived aroma compounds. In P. Winterhalter
& R. Rouseff (Eds.),Carotenoid-derived aroma compounds: an introduction(pp. 1–17). Wash-
ington, DC: ACS Symposium Series 802.
Winterhalter, P., & Skouroumounis, G.K. (1997). Glycoconjugated aroma compounds: occurence,
role and biotechnological transformation.Adv. Biochem. Eng./Biotechnol., 55, 73–105.
Wirth, J. (2001). Etude de la filiation entre les norisopr ́eno ̈ıdes et les carot ́eno ̈ıdes chez la vigne.
Doctoral dissertation, University of Montpellier II.
Wirth, J., Guo, W., Baumes, R., & G ̈unata, Z. (2001). Volatile compounds releasedby enzymatic
hydrolysis of glycoconjugates of leaves and grape berries fromVitis viniferaMuscat of Alexan-
dria and Shiraz cultivars.J. Agric. Food Chem., 49, 2917–2923.
Wirth, J., Sauvage, F.X., Baumes, R., & G ̈unata, Z. (2003). Biogenesis of C 13 -norisoprenoids in
grape: biotransformation of C 1 3-norisoprenoids by a cell suspension culture of cv. Gamay. In:
J.L. Le Qu ́er ́e&P.X.Eti ́evant (Eds.),Flavour research at the dawn of the twenty-first century
(pp 393–396). Cachan, France: Tec. et Doc. Lavoisier.

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