Wine Chemistry and Biochemistry

(Steven Felgate) #1

12 Automatic Analysers in Oenology 659


Certain instruments are only capable of adding one reagent and this precludes


reactions for which two reagents are required, though of course the reverse is not


the case.


12.3.4 Usual Methods Based in Sequential Analysis


12.3.4.1 Determination of Acetic Acid


According to McCloskey (1980), Doneche and Sanchez, (1985) and Dubernet et al.


(1997).


Principle


Enzymatic Method


In the presence of ATP, acetic acid is transformed into acetyl-phosphate in a reaction


catalysed by acetate kinase:


Acetate+AT P —AcetateKinase−→Acetyl-phosphate+ADP (1)


The ADP formed by this reaction is reconverted into ATP by reaction with phos-


phoenolpyruvate in the presence of pyruvate kinase:


ADP+Phosphoenolpyruvate —PyruvateKinase−→Pyruvate+AT P ( 2 )


Pyruvate is reduced to l-lactate by reduced nicotinamide-adenine-nucleotide


(NADH) in the presence of lactate-deshydrogenase:


Pyruvate+NADH+H+ —Lactatedeshydrogenase−→Lactate+NAD++H 2 O(3)


The quantity of NADH oxidised in reaction (3) is determined by measuring its


absorbance at 340 nm, which is proportional to the concentration of acetic acid in


the wine.


A fourth reaction, the elimination of acetylphosphate is used to force the equilib-


rium of reaction (1) in favour of the products:


Acetyl-phosphate+CoA—Phosphotransacetylase−→ Acetyl-CoA+inorganic phosphate
(4)

Polyvinylpyrrolidone (PVP) is added to the reaction medium in order eliminate


interference due to wine phenolic compounds.


Characteristics of the Method


Intra-laboratory reproducibility: 0.04g/L
Inter-laboratory reproducibility: 0.10g/L
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