Your search keyword '"Cristina Medina-Plaza"' showing total 6 results

1. The Effects of Temperature and Ethanol on Proanthocyanidin Adsorption to Grape Cell Wall Material in the Presence of Anthocyanins

Author

Jordan W. Beaver, Konrad V. Miller, Cristina Medina-Plaza, Nick Dokoozlian, Ravi Ponangi, Thomas Blair, David Block, and Anita Oberholster

Subjects

proanthocyanidins, anthocyanins, adsorption, isotherm, modeling, grape, Organic chemistry, QD241-441

Abstract

The quantitative and qualitative impacts of anthocyanins on proanthocyanidin adsorption to grape-derived cell wall material were investigated in fifteen unique systems of varying temperatures, ethanol concentrations, and proanthocyanidin concentrations. Proanthocyanidin solutions were exposed to cell wall material and monitored for changes in concentration over 24 h. Increases in both temperature and ethanol resulted in a larger retention of proanthocyanidins in solution and typically faster adsorption kinetics. Analysis of the solution after exposure to cell wall revealed a significant reduction in the molecular weight of proanthocyanidins present in solution, suggesting that anthocyanins do not alter a previously described mechanism of preferentially binding large molecular weight molecules. Additionally, a reduction in polymeric pigment abundance was noted in most conditions, suggesting rapid formation of polymeric pigment in the model solution and preferential adsorption of the polymeric pigment to cell wall material. Compared to a previous study of proanthocyanidin adsorption in the absence of anthocyanins, a significantly larger percentage of proanthocyanidin material was lost via adsorption—up to 70% of available material. In a winemaking context, this may suggest a preferential loss of polymeric pigment via adsorption to cap cell wall material compared to non-pigmented proanthocyanidins and free anthocyanins.

Published

2020

2. Heat-Dependent Desorption of Proanthocyanidins from Grape-Derived Cell Wall Material under Variable Ethanol Concentrations in Model Wine Systems

Author

Jordan W. Beaver, Konrad V. Miller, Cristina Medina-Plaza, Nicolas Dokoozlian, Ravi Ponangi, Thomas Blair, David Block, and Anita Oberholster

Subjects

proanthocyanidins, desorption, grape, wine, fermentation, temperature, ethanol, cell wall material, modeling, Organic chemistry, QD241-441

Abstract

Desorption of proanthocyanidins (PA) from grape cell wall material (CWM) was investigated in solutions of varying ethanol concentrations and increasing temperature. The results reveal the reversibility of PA-CWM interactions and the role that temperature and ethanol concentration play in the extent of PA desorption. Sequentially raising temperature from 15 to 35 °C resulted in desorption of up to 48% of the initial adsorbed PA. A comparison to a phenolic extraction model showed significant differences between the predicted and actual amount of PA that desorbed from the CWM. This suggests that the initial conditions of temperature and ethanol concentration must be considered when estimating PA extraction in red wine production. Under typical winemaking conditions, a significant amount of PA may be irreversibly adsorbed if exposed to CWM at low temperature (i.e., cold soak). A compositional analysis suggests the selective desorption of large molecular weight PA from CWM under all experimental conditions. Additionally, a preferential desorption of skin-derived PA over seed-derived PA was noted in the absence of ethanol.

Published

2019

3. Impact of Temperature, Ethanol and Cell Wall Material Composition on Cell Wall-Anthocyanin Interactions

Author

Cristina Medina-Plaza, Jordan W. Beaver, Larry Lerno, Nick Dokoozlian, Ravi Ponangi, Tom Blair, David E. Block, and Anita Oberholster

Subjects

anthocyanin, cell wall material, adsorption, desorption, phenolics, extractability, grape, red wine, Organic chemistry, QD241-441

Abstract

The effects of temperature and ethanol concentration on the kinetics of anthocyanin adsorption and desorption interactions with five cell wall materials (CWM) of different composition were investigated. Using temperatures of 15 °C and 30 °C and model wine with ethanol concentrations of 0% and 15% (v/v) over 120 min, the adsorption and desorption rates of five anthocyanin-glucosides were recorded in triplicate. Small-scale experiments were conducted using a benchtop incubator to mimic a single berry fermentation. Results indicate that more than 90% of the adsorption occurs within the first 60 min of the addition of anthocyanins to CWM. However, desorption appears to occur much faster, with maximum desorption being reached after 30 min. The extent of both adsorption and desorption was clearly dependent not only on temperature and ethanol concentration but also on the CWM composition.

Published

2019

4. A Mechanistic Model for the Extraction of Phenolics from Grapes During Red Wine Fermentation

Author

Konrad V. Miller, Roberto Noguera, Jordan Beaver, Cristina Medina-Plaza, Anita Oberholster, and David E. Block

Subjects

wine, phenolic extraction, kinetic model, grape seed structure, Organic chemistry, QD241-441

Abstract

Phenolic extraction is a critical part of red wine making. Though empirical models of phenolic extraction kinetics exist, the current level of mechanistic understanding does not allow for accurate predictions. In this work, we propose a mechanistic model for the extraction of phenolics from grape skins and seeds as a function of temperature and ethanol. This model examines the release of phenolics, the adsorption of phenolics onto grape material, and the disappearance of anthocyanins from solution. Additionally, we performed epifluorescence microscopy to explore our finding that seed tannins’ release rate appears independent of concentration, and found that the grape seed appears to ablate over fermentation. We also determined the activation energy of anthocyanin disappearance, in good agreement with similar systems. The proposed model results in an excellent fit, and increases the understanding of phenolic extraction and the ability to predict and optimize product outcome in red wine making.

Published

2019

5. Heat-Dependent Desorption of Proanthocyanidins from Grape-Derived Cell Wall Material under Variable Ethanol Concentrations in Model Wine Systems

Author

Anita Oberholster, Konrad V. Miller, Jordan W. Beaver, Ravi Ponangi, Nicolas Dokoozlian, David E. Block, Cristina Medina-Plaza, and Thomas Blair

Subjects

Hot Temperature, cell wall material, Pharmaceutical Science, Wine, 01 natural sciences, 040501 horticulture, Analytical Chemistry, lcsh:QD241-441, chemistry.chemical_compound, Medicinal and Biomolecular Chemistry, Adsorption, lcsh:Organic chemistry, Theoretical and Computational Chemistry, Cell Wall, Desorption, Drug Discovery, Proanthocyanidins, Vitis, Physical and Theoretical Chemistry, fermentation, Winemaking, Chromatography, Ethanol, Chemistry, Communication, 010401 analytical chemistry, Extraction (chemistry), Organic Chemistry, temperature, modeling, 04 agricultural and veterinary sciences, grape, 0104 chemical sciences, Molecular Weight, Proanthocyanidin, Chemistry (miscellaneous), desorption, Molecular Medicine, Fermentation, 0405 other agricultural sciences

Abstract

Desorption of proanthocyanidins (PA) from grape cell wall material (CWM) was investigated in solutions of varying ethanol concentrations and increasing temperature. The results reveal the reversibility of PA-CWM interactions and the role that temperature and ethanol concentration play in the extent of PA desorption. Sequentially raising temperature from 15 to 35 °C resulted in desorption of up to 48% of the initial adsorbed PA. A comparison to a phenolic extraction model showed significant differences between the predicted and actual amount of PA that desorbed from the CWM. This suggests that the initial conditions of temperature and ethanol concentration must be considered when estimating PA extraction in red wine production. Under typical winemaking conditions, a significant amount of PA may be irreversibly adsorbed if exposed to CWM at low temperature (i.e., cold soak). A compositional analysis suggests the selective desorption of large molecular weight PA from CWM under all experimental conditions. Additionally, a preferential desorption of skin-derived PA over seed-derived PA was noted in the absence of ethanol.

Published

2019

6. The Effects of Temperature and Ethanol on Proanthocyanidin Adsorption to Grape Cell Wall Material in the Presence of Anthocyanins

Author

Konrad V. Miller, Nick Dokoozlian, David E. Block, Jordan W. Beaver, Anita Oberholster, Cristina Medina-Plaza, Ravi Ponangi, and Thomas Blair

Subjects

Pigments, cell wall material, Pharmaceutical Science, Wine, 01 natural sciences, Analytical Chemistry, chemistry.chemical_compound, Theoretical and Computational Chemistry, Cell Wall, Drug Discovery, Vitis, Chemistry, Temperature, 04 agricultural and veterinary sciences, grape, anthocyanins, 040401 food science, Proanthocyanidin, Chemistry (miscellaneous), visual_art, visual_art.visual_art_medium, Molecular Medicine, Kinetics, Context (language use), Article, lcsh:QD241-441, Cell wall, Medicinal and Biomolecular Chemistry, Pigment, 0404 agricultural biotechnology, Adsorption, lcsh:Organic chemistry, Molecule, Proanthocyanidins, Physical and Theoretical Chemistry, Ethanol, Chromatography, isotherm, 010401 analytical chemistry, Organic Chemistry, modeling, Pigments, Biological, Biological, 0104 chemical sciences, Molecular Weight, adsorption, Fruit

Abstract

The quantitative and qualitative impacts of anthocyanins on proanthocyanidin adsorption to grape-derived cell wall material were investigated in fifteen unique systems of varying temperatures, ethanol concentrations, and proanthocyanidin concentrations. Proanthocyanidin solutions were exposed to cell wall material and monitored for changes in concentration over 24 h. Increases in both temperature and ethanol resulted in a larger retention of proanthocyanidins in solution and typically faster adsorption kinetics. Analysis of the solution after exposure to cell wall revealed a significant reduction in the molecular weight of proanthocyanidins present in solution, suggesting that anthocyanins do not alter a previously described mechanism of preferentially binding large molecular weight molecules. Additionally, a reduction in polymeric pigment abundance was noted in most conditions, suggesting rapid formation of polymeric pigment in the model solution and preferential adsorption of the polymeric pigment to cell wall material. Compared to a previous study of proanthocyanidin adsorption in the absence of anthocyanins, a significantly larger percentage of proanthocyanidin material was lost via adsorption&mdash, up to 70% of available material. In a winemaking context, this may suggest a preferential loss of polymeric pigment via adsorption to cap cell wall material compared to non-pigmented proanthocyanidins and free anthocyanins.

Published

2020