terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Separation and elucidation of ethylidene-bridged catechin oligomers using preparative-HPLC and NMR

Separation and elucidation of ethylidene-bridged catechin oligomers using preparative-HPLC and NMR

Abstract

During wine aging, small amounts of oxygen are absorbed and initiate a cascade of oxidation reactions. These aging reactions create many products including ethylidene-bridged oligomers and polymers of endogenous polyphenols, like flavan-3ols. This bridging is believed to reduce bitterness and astringency while enhancing color stability in aged wine [1]. The elongation reactions are products of interaction of flavonoids with acetaldehyde, an oxidation product of ethanol. While studies have been conducted confirming the reaction between acetaldehyde and various flavan-3-ols, there has not been research elucidating the structure of individual ethylidene-bridged flavan-3-ols. Previous acetaldehyde-flavan-3-ol nuclear magnetic resonance (NMR) experiments have either been conducted using the entire reaction mixture [2], or of the total amount of precipitates, which would include all of the polymers from the reaction. The goal of this experiment was to isolate various ethylidene-bridged catechin oligomers (dimer, trimer and tetramer) and confirm their proposed structure and yield using NMR. To investigate this, exogenous acetaldehyde and catechin (both 500 mg/L) were added to model wine (12.5% EtOH, pH 3.5), and incubated at 35°C for 7 days to allow for sufficient reaction. Using reverse-phase preparative-high-performance liquid-chromatography (RP-prep-HPLC) affixed with a diode array detector (DAD), the individual ethylidene-bridged catechin oligomers were isolated. Ethylidene-bridged oligomer purity and stability were determined using previously created liquid-chromatography mass-spectrometry (LC-MS) methods. After 10 hours of incubation at 20°C, the signal of the ethylidene bridged dimer was 23.3% of the initial isolate signal, demonstrating degradation after removal from the model solution. Isolates were dried using a freeze-dryer to preserve purity and stability. Interestingly, the ethylidene-bridged oligomers are stable prior to isolation from the reaction mixture. These products could potentially be in equilibrium with the reactants. All isolates (ethylidene-bridged dimer, trimer, tetramer) were redissolved in methanol-d4 and measured using both 1H and 13C NMR for elucidation of structure. NMR characterization of these compounds has increased our understanding of LC-MS data conducted on actual wine investigating the fate and kinetics of acetaldehyde mediated bridging of flavonoids.

References

[1] Sheridan, M., Elias, R. (2016). J Agric Food Chem, 64, 45, 8615-8624.

[2] Peterson, A., Waterhouse, A. (2016). J Agric Food Chem, 64, 36, 6869–6878.

Publication date: June 4, 2025

Type: Flash talk

Authors

Ezekiel R. Warren1, Ryan J. Elias1, Misha T. Kwasniewski1,*

1 Department of Food Science, The Pennsylvania State University, University Park, 16802, United States

Contact the author*

Keywords

acetaldehyde, aging, oxidation, polyphenols

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Effect of must temperature and aspergillopepsin-I supplementation on PR-protein derived peptides

Protein instability in wines is challenging, and despite many efforts to find satisfactory alternatives to bentonite, both in terms of stability and quality, the solutions are limited in the wine industry.

Understanding novel germplasm solutions: sensory, chemical and preliminary hedonic insights of wines made from Australian first-generation mildew resistant cultivars

One of the major issues for wine production in Australia is the management and eradication of powdery and downy mildews and the associated yield losses they present, costing Australian grape growers upwards of AUD$160M per annum [1].

Impact of GoLo technology on the aroma profile of red and white wines after total and partial dealcoholisation

Wine dealcoholisation has been practised since the early 1900s and has gained importance due to climate change
and shifting consumer preferences for lower-alcohol beverages. Rising temperatures are accelerating grape
ripening, increasing sugar content and, consequently, raising the alcohol strength of wines.

The impact of selected odorant combinations in wine oxidative aroma and their interactive role on the olfactory perception

It is widely known the impact that oxidation has on wine sensory degradation and eventually, in the shortening of its longevity.

Portable NIR spectroscopy for nutrient profiling in rootstock and scion material: enhancing decision-making in the grafting industry

The success of grafting in viticulture is deeply influenced by the nutrient composition of both rootstock and scion
materials. Key components such as nitrogen and carbohydrates play a crucial role in graft compatibility, establishment,
and overall plant vigor [1].