Wine Chemistry and Biochemistry

(Steven Felgate) #1

4 Enzymes in Winemaking 111


R’

R
a-L-Arabinofuranosyl-

b-D-Apiofuranosyl-

a-L-Rhamnopyranosyl-

b-D-Glucopyranoside

Aliphatics
Monoterpenes
Terpene diols
C 13 norisoprenoids
Benzenoids

COH

O

HOH 2 C
OH

OH

O

O

OH

H 2

O

OH

O
O

OH

CH 3

OH

OH

HO

O
O

OH

CH 2

HO OH

R'

R

Fig. 4.3Chemical structure of the various possible glycosides identified in grapes


grapes (Cordonnier and Bayonove 1974; Winterhalter et al. 1990, 1991; Winterhalter


1991; Sefton et al., 1993, 1994; Sefton 1998; Wirth et al. 2002). For this reason, it


is generally accepted that hydrolysis of glycosides during winemaking is one of


the main factors determining the formation of wine aroma characteristics (Abbott


et al. 1991; Francis et al 1992, 1999). The liberation of glycosidically-bound aroma


compounds can be achieved either via an acid-catalyzed process or by the action of


glycosidase enzymes. Acid hydrolysis is however fairly slow under typical wine-


making conditions, and is mainly regarded as a pathway for the formation of wine


aging bouquet (Sefton 1998). Conversely, the action of glycosidase enzymes can


rapidly hydrolyze the aroma precursors and release the bound volatile compound


(G ̈unata et al. 1993). This approach has therefore attracted considerable attention for


its possible application as a tool to modulate wine aroma and enhance the expression


of specific sensory characteristics.

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