Macrowine 2021
IVES 9 IVES Conference Series 9 IBMP-Polypenol interactions: Impact on volatility and sensory perception in model wine solution

IBMP-Polypenol interactions: Impact on volatility and sensory perception in model wine solution

Abstract

3-Isobutyl-2-methoxypyrazine (IBMP) is one of the key molecules in wine aroma with a bell pepper aroma and a very low threshold in wine, 1-6 ng/L for white wine and 10-16 ng/L in red wine1. The differences in these thresholds are likely due to IBMP-non volatile matrix interactions. It has indeed been shown that polyphenols may influence the volatility of flavor compounds2. In the present study, we focus on IBMP-polyphenols interactions in relation to volatility and sensory perception in model wine solution. Methods: 1. GC-MS Static Headspace Analysis: Samples were analyzed by Static headspace analysis with an Agilent 7890A gas chromatograph coupled to HP 5975C mass spectrometry detector (Agilent Technologies, Santa Clara, CA, USA). The analyses of polyphenols and IBMP in model wine were all performed in 10ml vial flasks with volumes of 1ml of model wine volume. IBMP was quantified in Single Ion Monitoring (SIM) mode. The ions used for SIM mode were m/z 94, 121, 154. All the solutions were at fixed pH and ethanol concentration (pH 3.5, 12% Ethanol). For each experiment a control of IBMP, polyphenol, a blank and a mix between IBMP and polyphenol were prepared. 2. Sensory Analysis: Triangular tests were performed by trained panelists (n=26) to orthonasally differentiate between IBMP on its own and IBMP in the presence of a polyphenol. 3. NMR Spectroscopy : Spectra were performed on an Agilent 500 MHz DD2 NMR spectrometer (Agilent Technologies, Santa Clara, CA, USA).Titrations of polyphenols were obtained by addition of IBMP solubilized in CD3OD (~200mM) to quercetin or polydatin (~20mM) CD3OD solution. Absolute concentrations of both aroma and polyphenols were accurately determined from the surface integration of well-separated 1D 1H signal using qNMR method. Results: 1. The headspace analysis showed that polydatin and quercetin decreased the volatility of IBMP. 2. Compared to the control (IBMP without polyphenol), significant results were found in sensory analysis (triangular tests) for polytadin (P < 0030) and quercetin (P < 0000) in presence of IBMP at 8 ng/L in model wine solution 3. Variations in NMR 1H chemical shifts were observed in titration experiments which suggest different possible sites for the interactions of IBMP with the polyphenols

[1] D. Sidhu, J.Lund, Y. Kotseridis, C.Saucier (2015). Methoxypyrazine Analysis and influence of Viticultural and Enological Procedures on their Levels in Grapes, Musts, and Wines, Critical reviews in Food Science and Nutrition, 55:4, 485-502, [2]. Aronson, J., & Ebeler, S. E. (2004). Effect of polyphenol compounds on the headspace volatility of flavors. American Journal of Enology and Viticulture, 55 :1, 13-21.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Article

Authors

Cédric Saucier*, Audrey Bloem, Christine Le Guernevé, Damien Lorenzi, Elizabeth Johansson Filote, Nicolas Bouvier, Peggy Rigou, Veronique Cheynier

*Université de Montpellier

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Colour assessment of port wines using colorimetric and spectrophotometric methods

Colour is an important quality parameter in wines and is the result of a complex mixture of pigments
(including anthocyanins and their derivatives, quinones, xanthyllium compounds, etc.). Red wine colour changes over time as pigments react between themselves and with other wine macromolecules
(particularly polyphenols). During wine tasting, colour is normally assessed on the outer rim of the wine profile in a tilted glass, since most wines are too opaque to be analysed in the middle of the glass. Therefore, depending on the depth of observation considered, the perception of wine colour can be different.

On the losses of dissolved CO2 during champagne aging

A misconception lingers in the minds of some wine consumers that Champagne wines don’t age. It’s largely a myth, certainly as far as the best cuvees are concerned. Actually, during the so-called autolysis period of time (in the closed bottle, after the “prise de mousse”), complex chemical reactions take place when the wine remains in contact with the dead yeast cells, which progressively bring complex and very much sought-after aromas to champagne. Nevertheless, despite their remarkable impermeability to liquid and air, caps or natural cork stoppers used to cork the bottles are not 100% hermetic with regard to gas transfers. Gas species therefore very slowly diffuse through the cap or cork stopper, along their respective inverse partial pressure. After the “prise de mousse”, because the partial pressure of CO2 in the bottleneck reaches up to 6 bars (at 12 °C), gaseous CO2 progressively diffuse from the bottle to the ambient air
(where the partial pressure of gaseous CO2 is only of order of 0,0004 bar).

Using combinations of recombinant pectinases to elucidate the deconstruction of the polysaccharide‐rich grape cell wall during winemaking

The effectiveness of enzyme-mediated maceration processes in red winemaking relies on a clear picture of the target (berry cell wall structure) to achieve the optimum combination of specific enzymes to be used. However, we lack the information on both essential factors of the reaction (i.e. specific activities in commercial enzyme preparation and the cell wall structure of berry tissue). In this study, the different combinations of pure recombinant enzymes and the recently validated high throughput cell wall profiling tools were applied to extend our knowledge on the grape berry cell wall polymeric deconstruction during the winemaking following a combinatorial enzyme treatment design.

An excessive leaf-fruit ratio reduces the yeast assimilable nitrogen in the must

Yeast assimilable nitrogen (YAN) in the grape must is a key variable for wine quality as a source of aroma precursors. In a situation of YAN deficiency, a foliar urea application upon the vine at veraison enhances YAN concentration and facilitates must fermentation. In 2013, Agroscope investigated the impact of leaf-fruit ratio on the nitrogen (N) assimilation and partitioning in grapevine Vitis vinifera cv. Chasselas following foliar-urea application with the aim of improving its efficiency on the YAN concentration.

Effects of post-fermentative cold maceration on chemical and sensory characteristics of Syrah, Cabernet Franc and Montepulciano wines

Astringency sensation decreases slowly during the aging of red wine. Complex reactions of condensation and precipitation of wine polyphenols are involved in this phenomenon. Wine composition and conditions of aging, such as temperature and oxygen availability, strongly influence evolution of the phenol matrix. Recently, a Post-Fermentative cold Maceration (PFM) technique was tested with the aim of accelerating reactions leading to the reduction of astringency and exploiting chemical compounds not extracted from the solid parts of grapes during the previous traditional maceration phase. To this purpose, an innovative maceration system was engineered and used to perform PFM trials on marc derived from vinification of different varieties of red grapes.