ABSTRACT
During malolactic fermentation in wine by Oenococcus oeni, the degradation of citric acid was delayed compared to the degradation of malic acid. The maximum concentration of diacetyl, an intermediary compound in the citric acid metabolism with a buttery or nutty flavor, coincided with the exhaustion of malic acid in the wine. The maximum concentration of diacetyl obtained during malolactic fermentation was strongly dependent on the oxygen concentration and the redox potential of the wine and, to a lesser extent, on the initial citric acid concentration. The final diacetyl concentration in the wine was also dependent on the concentration of SO2. Diacetyl combines rather strongly with SO2 (Kf = 7.2 x 10(3) M(-1) in 0.1 M malate buffer [pH 3.5] at 30 degrees C). The reaction is exothermic and reversible. If the concentration of SO2 decreases during storage of the wine, the diacetyl concentration increases again.
ABSTRACT
The pyruvate metabolism of a Lactococcus lactis subsp. lactis biovar diacetylactis mutant deficient in alpha-acetolactate decarboxylase and its wild-type strain was studied during batch cultivations. A chemically defined medium was used containing glucose as carbon- and energy-source. The alpha-acetolactate decarboxylase deficiency had no effect on the specific growth rate. Addition of citrate was found to increase the specific growth rate of both strains under aerobic and anaerobic conditions. The product formation was monitored throughout the cultivations. The carbon- and redox-balances were within the accuracy of the experimental data. When citrate was added, alpha-acetolactate, diacetyl, and acetoin were formed, and aeration was shown to have a positive effect on the formation of these metabolites. By omitting lipoic acid (required for a functional pyruvate dehydrogenase complex) from the growth medium, a similar stimulatory effect on alpha-acetolactate, diacetyl, and acetoin formation was observed under aerobic conditions. The strain with impaired alpha-acetolactate decarboxylase activity accumulated alpha-acetolactate which resulted in an increased diacetyl formation compared to the wild-type strain, under aerobic and anaerobic conditions.
