Wine Chemistry and Biochemistry

(Steven Felgate) #1

172 M.V. Moreno-Arribas and M.C. Polo


6A.3.2.1 Yeast


A large variety of indigenous yeast species can grow and perform alcoholic fermen-


tation in wine, along with commercialSaccharomyces cerevisiaestrains. Few stud-


ies have been conducted on the formation of biogenic amines by yeasts, and most of


these only compared different yeast species and only quantified histamine (Torrea


and Anc ́ın 2002). Somavilla et al. (1986), using six yeast strains, demonstrated that


small amounts of histamine are produced during alcoholic fermentation and that the


association of yeasts and lactic acid bacteria can reduce the histamine level. The


highest histamine values (from 3.7 to 8.3 mg/L) were obtained when histidine was


added to the must (34 mg/L), in the other experiments histamine values were lower


than 1.2 mg/L. Vidal-Carou et al. (1990a) did not detect histamine formation either


during alcoholic fermentation although they did detect tyramine formation, but at


very low levels (0.60 mg/L). In contrast, other authors disagree with the hypothesis


that biogenic amines are formed by lacticacid bacteria during malolactic fermenta-


tion (Buteau et al. 1984). Torrea-Go ̃ni and Anc ́ın-Azpilicueta (2001) found a slight


biogenic amine production bySaccharomyces cerevisiaedepending on the strain.


Recently, Landete et al. (2007b) screened 36 strains of yeast isolated from must


and wines to produce biogenic amines. The yeast tested included strains belong-


ing to the generaAureobasidum, Candida,Hanseniaspora, Hansenula, Kloeck-


era,Metschnikowia, Pichia,Rhodotorulaand strains of the speciesSaccharomyces


cerevisiae, S. cerevisiaevar.bayanus, S. cerevisiaevar.chevalieri and S. cerevisiae


var.steiner. No biogenic amines were produced by any of the yeast strains tested
under the conditions present in this screening test, in synthetic medium, grape


must or wine. These results are consistent with previous studies in which neither


histamine, tyramine or putrescine production were detected in 50 yeast strains


isolated from grapes and/or wine, includingSaccharomyces cerevisiaeand other


non-Saccharomycesyeasts, while some of these yeasts varied in their capacity to


form phenylethylamine (Caruso et al. 2002; Granchi et al. 2005). These findings,


therefore, indicate that yeast does not appear to be at least the direct origin of most


amines found in wines.


6A.3.2.2 Lactic Acid Bacteria


Extensive research has been done to correlate biogenic amine production in wine


with species of lactic acid bacteria involved in the winemaking process. The first


studies on histamine production by lactic acid bacteria indicate thatPediococ-


cus were the main producers (Farias etal. 1993). Recent studies by Landete


et al. (2007b) are in accordance since, although the percentage ofPediococcus


species capable of producing histamine seems to be low, some strains are responsible


for the highest concentrations. However, today it is well known thatLactobacillus,


LeuconostocandOenococcusspecies are also implicated in biogenic amine pro-


duction in wine. Different strains ofLactobacillus hilgardii, L. brevis. L. buchneri


andL. malihave been found to be able to produce a variety of biogenic amines in

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