290 D. Dubourdieu and T. Tominaga
Fig. 8B.12Proposed pathway for the conversion of glutathionylated “pro-precursor” into the cys-
teinylated precursor of 3SH
blanc musts from the Val de Loire area.Saccharomyces uvarumand their hybrids
withS. cerevisiaeare also commonly in the natural microflora of cool Structure of
three aroma precursors of sauvignon:S-cysteine conjugates climate vineyards, such
as Hungary, Alsace, etc. (Masneuf et al. 2002).
S-3-(Hexan-ol)-glutathion has been identified in Sauvignon blanc must(Peyrot
des Gachons et al. 2002b). This compound may be considered a “pro-precursor” of
3SH.S-3-(hexan-ol)-L-cysteine in grapes could result from the catabolism ofS-3-
(hexan-ol)-glutathion, as proposed in Fig. 8B.12.S-Glutathion conjugates may be
involved in detoxification processes in vines, as is the case in other plant and animal
organisms.
References
Allen, M.S., Lacey M.J., Harris, R.L.N., & Brown, W.V. (1991). Contribution of methoxypyrazines
to Sauvignon blanc wine aroma.Am. J. Enol. Vitic., 42, 109–112.
Augustyn, O.P.H., Rapp, A., & van Wyck, C.J. (1982). Some volatile aroma components ofVitis
viniferaL. cv. Sauvignon blanc.S. Afr. J. Enol. Viticult., 3, 53–60.
Aznar, M., L ́opez, R., Cacho, J.F., & Ferreira, V. (2001). Identification and quantification of impact
odorants of aged red wines from Rioja. GC-olfactometry, quantitativeGC-MS, and odor eval-
uation of HPLC fractions.J. Agric. Food Chem., 49, 2924–2929.
Blanchard, L. (2000). Recherche sur la contribution de certains thiols volatils al’arˆome des vins rouges. Etude de leur gen
ese et de leur stabilit ́e. Th`ese de Doctorat de l’Universit ́e Victor
Segalen Bordeaux2
Blanchard, L., Tominaga, T., & Dubourdieu, D. (2001). Formation of furfurylthiol exhibiting a
strong coffee aroma during oak barrel fermentation from furfural released by toasted staves.J.
Agric. Food Chem., 49, 4833–4835.
Bouchilloux, P., Darriet, P., Henry, R., Lavigne, V., & Dubourdieu D. (1998a). Identification of
volatile and powerful odorous thiolsin Bordeaux red wine varieties.J. Agric. Food Chem., 46,
3095–3099.