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The particle matter of wine is mainly composed of wine colloids and macromolecules. The present work develops a methodology using asymmetrical flow field-flow fractionation coupled with multi-angle light scattering, differential refractive index detector, and ultraviolet detector (AsFlFFF–MALS–dRI–UV) for the fractionation and determination of the molar mass, the hydrodynamic radius, and the apparent densities of the aggregates and macromolecules present in wine samples. The results from a set of six Argentinian high-altitude wines showed two main populations: the first population composed of wine colloids with higher UV-specific absorptivity and the second population composed of polysaccharides, such as arabinogalactans. The conformation results showed that population 1 consists of small and dense particles, while population 2 showed high molar masses and lower densities. The results demonstrated the use of AsFlFFF as a new, effective method for the fractionation and characterization of wine colloids and wine macromolecules in red wines with further potential applications.
Highlights
Wine particle matter consists of wine colloids and wine macromolecules
From the addition of different detectors, such as multi-angle light scattering (MALS), differential refractive index, and ultraviolet (UV), detailed information can be obtained over the entire molar mass distribution of the particles and polymers
Analyses were evaluated in three different ways. (i) The analyzable fraction: The differential refractive index (dRI) area analyzed is compared to the total dRI area that includes non-separated areas between peaks and the area of material eluted after the cross-flow was stopped during the asymmetrical flow fieldflow fractionation (AsFlFFF) analysis. (ii) The recovery of the UV absorbing material of the AsFlFFF analysis: The total analyzed material obtained from the integrated UV signal of the sample is compared to the total integrated UV signal of the nonseparated sample passing through the AsFlFFF
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Summary
INTRODUCTION
Wine particle matter consists of wine colloids (e.g., tannins) and wine macromolecules (polysaccharides and proteins). Separation in the AsFlFFF operates based on the diffusion coefficient of the analyte, which provides its hydrodynamic radius.[24] From the addition of different detectors, such as multi-angle light scattering (MALS), differential refractive index (dRI), and ultraviolet (UV), detailed information can be obtained over the entire molar mass distribution of the particles and polymers. Conformational information, such as apparent density (ρapp) and hydrodynamic radius (rH), can be obtained throughout the size distribution by a combination of different detector and elution properties.[25]. The interpretations are supported by chemical analysis of the wine fractions from AsFlFFF and dialysis experiments
MATERIALS AND METHODS
RESULTS AND DISCUSSION
■ REFERENCES
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Asymmetrical Flow Field-Flow Fractionation- Red Wines
- Field-Flow Fractionation
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