Macrowine 2021
IVES 9 IVES Conference Series 9 The commercial yeast strain as a significant source of variance for tyrosol and hydroxytyrosol in white wine

The commercial yeast strain as a significant source of variance for tyrosol and hydroxytyrosol in white wine

Abstract

Tyrosol (TYR) and hydroxytyrosol (HYT) are bioactive phenols present in olive oil and wine, basic elements of the Mediterranean diet. TYR is reported in the literature for its interesting antioxidant, cardioprotective and anti-inflammatory properties. In wine, its concentration can reach values as high as about 40 mg/L [Pour Nikfardjam et al. 2007] but, more frequently, this phenol – derived from yeast metabolism of tyrosine during fermentation – is present at lower levels, generally higher in red wines compared to whites. HYT was measured for the first time by Di Tommaso et al. [1998] in Italian wines – with maximum values of 4.20 mg/L and 1.92 mg/L for red and white wines, respectively – while definitely lower concentrations have been found later in Greek samples. Concentrations of about 2-3 mg/L have been reported by Minuti et al. [2006] for red wines while Romboli et al. [2015] observed definitely higher concentrations – up to 25 mg/L – in case of slow fermentations of Sangiovese wines processed in lab-scale. Oddly, in spite of the non-negligible concentration of these compounds in wine, few data are available regarding the concentration variability of TYR and HYT due to not genetically engineered Saccharomyces cerevisiae strains available on the market and used in winery conditions. To investigate this variability, 7 yeast strains (Zymaflore VL1; Fermol Arome Plus; AWRI 796; La Claire EM2; Anchor VIN13; Zymaflore VL3; Mycoferm CRU 31) were used (15 g/hL) to ferment – on semi-industrial scale, at 18-21°C – five Pinot gris juices achieved from different vineyards. They were adequately provided with natural assimilable nitrogen (163-214 mg/L), and had been well settled (36 h, 10°C, < 100 NTU) and supplemented with 20-30 mg/L SO2. After alcoholic fermentation, wines were sulphited (80 mg/L) and maintained sur lies under argon blanketing (4°C x 90 days), with batonnage 1 time a week on average. In the transition from juice to wine, the mean concentrations of TYR and HYT increased about 60 and 20 times. In wine, TYR ranged between 4.20 and 15.51 mg/L, and HYT between 0.33 and 3.45 mg/L confirming the values in the literature. Statistically significant differences have been observed between yeast strains, both for TYR and HYT, and maximum variability between strain mean concentrations was about 35%, corresponding to a range of about 2.2 mg/L TYR and 0.55 mg/L HYT. In any case, the variability linked to the origin of the juice was higher than that linked to the Saccharomyces cerevisiae strain. Pour Nikfardjam et al. 2007]. Mitteilungen Klosterneuburg 57(3), 146-152 Di Tommaso et al. (1998). J. High Res. Chromatography 21(10), 549-553 Minuti et al. (2006). J. Chromatography A, 1114, 263-268 Romboli et al. (2015). W. J. Microbiol. Biotech. 31(7), 1137-1145.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Tomàs Villegas*, Chiara Barnaba, Giorgio Nicolini, Luca Debiasi, Roberto Larcher, Tiziana Nardin

*fondazione E.Mach

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Enological evaluation of the attitude of the grapevine fumin to give varietal wines

Initiatives have been ongoing in recent years to safeguard biodiversity in the oenological sector via a process of enhancement of ancient varieties, under a pressure of a market strongly oriented towards production deriving from native vines of specific geographical zones. In that sense, Aosta Valley
(Italy) has raised the need to preserve and characterize its minority vine varieties which have the potentiality to give varietal wines. Fumin represents the 7% of the production of the region with 16 hectares of vineyards and 753 hectolitres of derived wine. Due to its large phenolic potential, strong astringency and deep colour, it has long been, and is still today, assembled or blended with other varieties as occurs, for example, for the Torrette.

Reaction Mechanisms of Copper and Iron with Hydrogen Sulfide and Thiols in Model Wine

Fermentation derived sulfidic off-odors due to hydrogen sulfide (H2S) and low molecular weight thiols are commonly encountered in wine production and removed by Cu(II) fining. However, the mechanism underlying Cu(II) fining remains poorly understood, and generally results in increased Cu concentration that lead to deleterious reactions in finished wine. The present study describes a mechanistic investigation of the iron and copper mediated reaction of H2S, cysteine, 3-sulfanylhexan-1-ol, and 6-sulfanylhexan-1-ol with oxygen. The concentrations of H2S, thiols, oxygen, and acetaldehyde were monitored over time. It was found that Cu(II) was rapidly reduced by both H2S and thiols to Cu(I).

Comprehensive two-dimensional gas chromatography coupled with Tof-MS, a powerful tool for analysis of the volatomes of grapes and wines

Comprehensive two-dimensional gas chromatography (GCxGC) has emerged as a powerful analytical technique for unraveling the volatile composition of complex matrices. This work will present three applications of GCxGC Tof-MS to the oenological field, aimed to identify novel biomarkers to be used in the quality control process of the wine industry. Comprehensive mapping of volatile compounds was conducted in a large sample of 70 sparkling wines, produced by 48 different wineries across 6 vintages and representative of the two main production areas for premium Italian sparkling wines (Franciacorta (FC) and Trentodoc (TN)), using HS-SPME followed by GCxGC-Tof-MS and multivariate analysis. Selection and identification of 196 putative biomarkers allowed clear separation of sparkling wines from FC and TN.

Extraction of pathogenesis-related proteins and phenolics in Sauvignon Blanc as affected by different

The composition of wine is largely determined by the composition of pre-fermentation juice, which is influenced by extraction of grape components. Different grape harvesting and processing conditions could affect the extraction of grape components into juice. Among these grape components, pathogenesis-related (PR) proteins are of great concern for white wine maker as they are the main cause of haze formation in finished white wine. If not removed before bottling, these PR proteins may progress into haze through the formation of complex with phenolics under certain conditions. Thaumatin-like proteins (TLPs) and chitinases are the main constituents of PR proteins found in protein haze.

Simultaneous monitoring of dissolved CO2 and collar from Rosé sparkling wine glasses: the impact of yeast macromolecules

Champagne or sparkling wines elaborated through the same traditional method, which consists in two major yeast-fermented steps, typically hold about 10 to 12 g/L of dissolved CO2 after the second fermentation in a closed bottle. Hundreds of molecules and macromolecules originating from grape and yeast cohabit with dissolved CO2; they are essential compounds contributing to many organoleptic characteristics (effervescence, foam, aroma, taste, colour…). Indeed, the second alcoholic fermentation and the maturation on lees (which may last from 12 months up to several years) both induce various quantitative and qualitative changes in the wine through the action of yeast, as listed hereafter: development of aromas during aging on lees, release of nitrogen compounds during autolysis and release of macromolecules (polysaccharides, lipids, nucleic acids) in wine.