Wine Chemistry and Biochemistry

(Steven Felgate) #1

108 M. Ugliano


need further microbial stabilization against post-MLF bacterial spoilage. Sulfur


dioxide is normally added to the wine to inhibit MLF as well as to prevent the devel-


opment of other spoilage microorganisms. In an effort to reduce the concentrations


of sulfur dioxide employed in winemaking, alternative strategies for wine stabiliza-


tion have been explored. Lysozyme is an enzyme present in hen egg white, which


can lyse Gram-positive bacteria, includingwine lactic acid bacteria. Its application


to stabilize the wine against bacteria, including those responsible for MLF, has been


recently investigated. Although it has beenproven that lysozyme can inhibit MLF


and growth of other microbial species (Gerbaux et al. 2007), unwanted side effects


have been observed in association with its use, namely loss of color in red wines and


formation of haze in whites (Bartowsky et al. 2004). Furthermore, lysozyme has no


inhibitory action against spoilage yeasts.


4.5 Pectolitic Enzymes


Grape berry skin and pulp contain significant amounts of pectic compounds that,


along with other constituents such as cellulose, hemicellulose and lignin, contribute


to the structure of cell walls (Vidal et al. 2003). Grape pectins are a heterogeneous


group of compounds characterised by a structure consisting of linear chains of -


dgalacturonic acid joined through 1→4 linkages, partially esterified with methanol


on the carboxylic function and with aceticacid in position O-2 and O-3. Insertion


of rhamnose residues in alternate positions in this structure results in rhamnogalac-


turonanes, which also contain side chains of arabinose or galactopyranose (Doco
et al. 1995).


During the production of white wines, part of pectic compounds from the berry


is released into the juice with grape crushing and pressing, and forms a colloid that


slows or prevents sedimentation of solid particles, particularly skin fragments. It has


been reported that wines made from juice rich in suspended solids have increased


levels of higher alcohols masking fruity aromas (Klingshirn et al. 1987) and higher


concentration of sulphur compounds potentially responsible for off-flavors (Single-


ton et al. 1975; Lavigne-Cru`ege 1996). Therefore, elimination of solid particles is


a key step in the production of quality whitewines. Enzymatic hydrolysis of pectic


structures is generally considered the most efficient way to break down their col-


loidal state and permit the separation of the entrapped solid particles. Due to the vari-


ety of possible structures, different enzymatic activities, particularly pectinesterases,


polygalacturonases, pectin lyases, and pectate lyases can hydrolyse grape pectins.


The occurrence of polygalacturonase and pectinesterase activities in grape berries


has been reported (Usseglio-Tomasset 1978), which indicates that grape enzymes


have the potential to promote juice clarification following crushing. Nevertheless,


the activity of these enzymes is often insufficient, so that the time required to


obtain an optimal degree of clarification thorough the action of grape pectinase can


be incompatible with normal winery operations. To improve the efficiency of the


clarification process, commercial preparations of pectinases can be added. These

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