Wine Chemistry and Biochemistry

(Steven Felgate) #1

4 Enzymes in Winemaking 117


the monoterpene alcohol geraniol and its glucoside, both identified in wine, can


both act as precursor to various other terpene aroma compounds, including the


monoterpene alcohol linalool. It has been shown that the rate of formation of


linalool and other volatiles from geraniol during wine aging is much higher for


free geraniol than for its glucoside (Fig. 4.6a) (Skouroumounis and Sefton 2000).


Because linalool is a more powerful odorant than geraniol, this might have positive


consequences for wine aroma. In contrast, in a study on the formation of the


powerful odorant -damascenone, it was found that acid-catalyzed hydrolysis of


the glucoside of megastigm-5-en-7-yne-3,9-diol, one of the possible precursors to


-damascenone during wine aging (Sefton et al. 1989), yielded a higher propor-


tion of -damascenone compared to the aglycone, although the latter reacted more


Enzyme hydrolysis

Acid hydrolysis

Megastigm-5-en-7-yne-3,9-diol glucoside Megastigm-5-en-7-yne-3,9-diol

β-Damascenone

β-Damascenone

Acid hydrolysis

Higher yield, slower reaction

Lower yield, faster reaction

Acid
hydrolysis

Enzyme
hydrolysis

Acid
hydrolysis High rate of transformation, large
array of compounds formed,
including linalool, α-terpineol,
nerol, myrcenol, ocimene isomers

Low rate of transformation, small
array of compounds formed, mainly
linalool and α-terpineol

a)


b)


Fig. 4.6Mechanisms of formation of: aterpenes from geraniol and geranyl glucoside;
b -damascenone from megastigm-5en-7yne-3,9-diol and its glucoside

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