Wine Chemistry and Biochemistry

6A Amino Acids and Biogenic Amines 165

content increases during grape maturation, and can reach 90% of the total nitrogen

in musts from table wine grapes. At wine harvest, 70% of the organic nitrogen is

constituted by amino acids, 3% by proteins and 2% by peptides.

Free amino acids in musts are of paramount importance, since they constitute a

source of nitrogen for yeasts in alcoholic fermentation, for lactic acid bacteria in

malolactic fermentation and can also be a source of aromatic compounds. In certain

cases, some amino acids can produce undesirable compounds in wines, such as ethyl

carbamate, biogenic amines, ochratoxin A (from 2-phenylalanine) and -carbolines

(from tryptophane) (Herraiz and Ough 1993; Herraiz et al. 1993).

6A.2.1 Evolution of Free Amino Acids During Alcoholic

Fermentation

The free amino acids present in wine may be of different origins. Those from the

grape may be partially or totally metabolised by the yeasts during fermentation.

Other free amino acids are released by yeasts at the end of fermentation or by

proteolysis processes during yeast autolysis. The two most abundant free amino

acids are proline and arginine and both have glutamic acid as a precursor, which

is also among the most abundant (Moreno-Arribas et al. 1998). Changes in free

amino acids during alcoholic fermentation have been the focus of numerous and

important studies. At the start of fermentation, yeasts use the nitrogen from ammo-

nium salts for their development, followed by the nitrogen from free amino acids.

Some of these, namely, arginine, glutamic acid, glutamine, aspartic acid, asparagine,
threonine and serine, are preferentially assimilated. Simultaneously, by enzymatic

processes, the yeasts degrade the proteins to peptides and to amino acids until fer-

mentation has finished. The presence of exogenous proteases in yeasts has been

demonstrated by Feuillat et al. (1980). Autolysis and the release of amino acids

by yeasts also contribute to the increasedconcentration of free amino acids after

fermentation (this subject is discussed in more detail in Chapter 3A. – Sparkling

Wines and Yeast Autolysis)

Numerous factors are involved in nitrogen uptake by yeasts during alcohol

fermentation. These include temperature (L ́opez et al. 1996), concentration of

sugars – at higher sugar concentrations more nitrogen is required (Agenbach 1977) –

and the concentration of oxygen (Ingledew and Kunkee 1985). Addition of weak

concentrations of ammonia nitrogen (for example 0.23 mg/L of diammonium phos-

phate, a value close to the maximum permitted for nitrogen enrichment) has little

effect an amino acid utilization (Monteiroand Bisson 1992). In contrast, the addi-

tion of high doses of this salt (2.0 g/L) greatly reduces arginine consumption and

degradation, and the formation of polyamines, such as putrescine, spermine and

spermidine.

In a study by Dizy and Polo (1996), the majority amino acids in grape must of the

Malvar variety were glutamine, arginine, proline and-aminobutyric acid (GABA).

The authors found that the concentration of proline rose during fermentation, while