OENO IVAS 2019 banner
IVES 9 IVES Conference Series 9 OENO IVAS 9 OENO IVAS 2019 9 Grape and wine microorganisms: diversity and adaptation 9 Genetic causes of SO2 consumption in Saccharomyces cerevisiae

Genetic causes of SO2 consumption in Saccharomyces cerevisiae

Abstract

SO2 is used during winemaking for its anti-oxidative and anti-microbial properties. A high SO2 concentration in the wine has negative impacts by hiding wine aromas and delaying malolactic fermentation. SO2 concentration is also a source of health concerns and is therefore legally regulated. During the alcoholic fermentation SO2 can be produced or consumed by the yeast Saccharomyces cerevisiae with a high variability depending on the strain that accomplish the fermentation. The selection of industrial strains leaving less SO2 at the end of fermentation is therefore of great interest. 

In this study we implemented a QTL (Quantitative Trait Loci) mapping program to identify genetic factors that impact SO2 production by yeast during fermentation. This approach requires the study of a large progeny in segregation that must be characterized genetically and phenotypically. The establishment of a statistical link between genotype and phenotype allows the localization of QTLs that have an impact on the characters. 

Small-scale fermentations in 10 ml screw cap vessels coupled with robotized enzymatic allowed us to measure SO2 profile of several hundred individuals from two progenies. These two progenies were also genotyped by whole genome sequencing providing saturated genetic maps of thousands of markers. This experimental design led us to the identification of nine QTLs controlling SO2. Four of them present in MCH1, STR2 and SSU1 genes were molecularly validated. These alleles also show a pleiotropic effect with link between the production of SO2 and acetic acid. In the future, these new alleles can be used in cross breeding programs for the improvement of industrial strains.

DOI:

Publication date: June 10, 2020

Issue: OENO IVAS 2019

Type: Article

Authors

Emilien Peltier (1,2), Maria Martí Raga (1,3), Miguel Roncoroni (4), Vladimir Jiranek (5), Yves Gibon (4), Philippe Marullo (1,2)

(1) Unité de recherche Oenologie, EA 4577, USC 1366 INRA, ISVV, Université de Bordeaux, Bordeaux INP, F33882 Villenave d’Ornon France
(2) Biolaffort, Bordeaux, France
(3) Departament de Bioquímica i Biotecnologia, Facultat d’Enologia de Tarragona, Spain
(4) Wine Science Programme, University of Auckland, New Zealand
(5) Department of Wine and Food Science, University of Adelaide, Australia
(6) INRA, University of Bordeaux, UMR 1332 Fruit Biology and Pathology, Villenave d’Ornon, France

Contact the author

Keywords

Yeast, QTL mapping, SO2 

Tags

IVES Conference Series | OENO IVAS 2019

Citation

Related articles…

Enological potential of red grapes: cultivars and geographic origin of vineyards

The study of technologic and phenolic maturation is very efficient to determinate quality potential of red grapes cultivars and clones under different maturity levels or geographic origins

Read More

Influence of the unité de terroir base on the typicity of winesin the AOC Priorat in Tarragona

L’AOC Priorat, située derrière les montagnes du pré littoral de Tarragone, se caractérise par un climat méditerranéen avec une tendance à la continentalité et très peu de précipitation pendant le cycle végétatif. Les sols sont secs, pauvres et caillouteux, formés par des schistes. Au cours des années 2000 et 2001, une étude de l’influence du terroir sur la typicité des vins du Priorat a été réalisée en prenant comme référence trois cépages cultivés dans différentes parceIles pour mesurer l’effet du terroir et du mésoclimat sur la qualité des vins:

Read More

Metabolic fingerprinting and qualitative attributes of two indigenous Cypriot cultivars destined for the production of ‘commandaria’: the impact of leaf removal and dehydration process

Grapes’ sun-drying is one of the most critical steps in the production of ‘Commandaria’, a dessert wine with Protected Designation of Origin that is exclusively produced in Cyprus from grapes of the two indigenous cultivars (Vitis vinifera L.), namely ‘Mavro’ and ‘Xynisteri’. Despite its significant economic importance, no data regarding the primary and secondary metabolites of the aforementioned cultivars exist.

Read More

Effect of redox mediators on the activity of laccase from Botrytis cinerea against volatile phenols

Volatile phenols namely 4-ethylphenol and 4-ethylguaiacol are formed by enzymatic decarboxylation of hydroxycinnamic acids by Brettanomyces yeasts to give vinylphenols and subsequent reduction of the vinyl group to form the correspondent ethylphenols. The presence of these compounds in wine affects negatively its aromatic quality, conferring unpleasant animal and phenolic odor when present in quantities above the olfactory detection threshold [1]. Several methods have been described to remove these undesirable compounds from wines, including the use laccase enzymes [2, 3]. Due to this, the aim of this work was to evaluate the effect of several natural redox mediators on the activity of Botrytis cinerea laccase against these volatile phenols.

Read More

Sensory definition of green aroma concept in red French wines. Evidence for the contribution of novel volatile markers

The aromatic complexity of a wine results from the perception of the association of volatile molecules and each aroma can be categorized into different families. The “green” aromas family in red wines has retained our attention by its close link with the fruity perception. In that study, the “green” olfactory concept of red wines was considered through a strategy combining both sensory analysis and hyphenated chromatographic techniques including HPLC and MDGC (Multidimensional Gas Chromatography). The aromatic space of this concept was specified by lexical generation through a free association task on 22 selected wines by a panel of wine experts. Then, 70 French red wines were scored on the basis of the intensity of their “green” and “fruity” attributes.

Read More