Wine Chemistry and Biochemistry

(Steven Felgate) #1

12 Automatic Analysers in Oenology 653


12.2.2.2 Determination ofL-Malic andL-Lactic Acids in Wines and Musts


According to Trossais and Asselin (1985), Battle et al. (1987a), Battle and Bouvier


(1986), and Curvelo-Garcia (1993).


Principle


The acids are oxidised, in the presence of nicotinamide-adenine-dinucleotide (NAD),


in a reaction catalysed by a specific enzyme:


Malate dehydrogenase (MDH) in the case of malic acid
Lactate dehydrogenase (LDH) in the case of malic acid

The equilibria of these reactions are forced in the direction of the products by the


addition of an alkaline hydrazine buffer and an excess of NAD.


MDH
L-malate+NAD+<==>oxaloacetate hydrazone+NADH+H+

LDH
L-lactate+NAD+<==>pyruvate hydrazone+NADH+H+

The quantity of NADH produced is proportional to the concentration of acid in


the sample, and its absorbance is measured at 340 nm.


Characteristics of the Method


Inter-laboratory reproducibility: 0.15g/L


12.2.2.3 Determination of Tartaric Acid in Wines and Musts


According to Battle et al. (1978b).


Principle


This involves the Rebelein method. A sample of dialysed wine is reacted with


metavanadate to produce a red colour at 37◦C in acid medium. The absorbance


is measured at 520 nm. High concentrations of malic acid and sugars can interfere


with the analysis.


Characteristics of the Method


Inter-laboratory reproducibility: 0.7g/L

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