Wine Chemistry and Biochemistry

(Steven Felgate) #1

654 M. Dubernet


12.2.2.4 Determination of Citric Acid in Wines and Musts


According to Battle and Bouvier (1986).


Principle


Citric acid is transformed into oxaloacetate and acetate in a reaction catalysed by


citrate-lyase (CL).


CL
citrate←====>oxaloacetate+acetate (1)

In the presence of malate deshydrogenase(MDH), oxaloacetate and pyruvate, its


decarboxylation derivative, are reduced toL-malate by reduced NADH. The equi-


librium of the reaction is forced in the direction of the products by the judicious


selection of operating conditions (buffer pH7.8 and an excess of NADH):


MDH
oxaloacetate+NADH+H+←===>L-malate+NAD (2)

The quantity of NADH oxidised to NAD is proportional to the quantity of citrate


present and the oxidation of NADH is tracked by the reduction in its absorbance at


340 nm.


12.2.2.5 Determination of Reducing Sugars in Wines and Musts


According to Curvelo-Garcia (1993) and Curvelo-Garcia and Godinho (1988).


Principle


A copperIII -neocuproine chelate is reduced by reducing sugars in alkaline medium


at approximately 85◦C. A dialysis step eliminates macromolecules that can interfere


with the colour reaction, the absorbance of which is measured at 460 nm. Must


analysis requires a 40-fold dilution prior to analysis.


Characteristics of the Method


Inter-laboratory reproducibility: 20%


12.2.2.6 Determination of Glucose and Fructose in Wines and Musts


According to Battle and Bouvier (1986).

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