Investigating the relationship between grape cell wall polysaccharide composition and the extractability of phenolic compounds into Shiraz wines. Part I: Vintage and ripeness effects (original) (raw)
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In this study, phenolic extractability of Cabernet Sauvignon grapes from two California regions (Sonoma County and Central Coast) and its relation with skin cell wall composition was investigated. Phenolic grape composition, wine phenolic content as well as berry and pomace cell wall composition of three sites per region were determined. Grape cell wall material (CWM) composition, and thus pomace CWM composition, was impacted by the growing region. The process of fermentation modified CWM composition, solubilizing some of the compounds such as pectin and polysaccharides making pomace CWM composition from different sites more similar in the case of Sonoma County and more different for the samples grown in the Central Coast. Growing region had a significant impact on grape phenolics, particularly on flavan−3-ols and polymeric phenols, whereas polymeric pigments and anthocyanin contents were more similar among samples. Wines made from Sonoma County grapes showed higher anthocyanin and ...
Journal of Agricultural and Food Chemistry, 2011
Changes in the phenolic composition, phenol extractability indices, and mechanical properties occur in grape berries during the ripening process, but the heterogeneity of the grapes harvested at different ripening stages affects the reliability of the results obtained. In this work, these changes were studied in Nebbiolo grapes harvested during five consecutive weeks and then separated according to three density classes. The changes observed in chemical and mechanical parameters through the ripening process are more related to berry density than harvest date. Therefore, the winemaker has to select the flotation density according to the objective quality properties of the wine to be elaborated. On the other hand, the stiffer grapes were associated with a higher accumulation of proanthocyanidins. The harder grapes provided the higher concentration and extractability of flavanols reactive to vanillin, whereas the thicker ones facilitated the extraction of proanthocyanidins.
Journal of Agricultural and Food Chemistry, 2012
The aim of this paper was to study how maturity and maceration length affect color, phenolic compounds, polysaccharides, and sensorial quality of Cabernet Sauvignon and Tempranillo wines at three stages of grape ripening. Ripeness increased color extractability, phenolic compounds, and polysaccharide concentrations. Moreover, the proanthocyanidin mean degree of polymerization (mDP) and the percentage of prodelphinidins also increased with maturity, whereas the percentage of galloylation decreased. In general, wines from riper grapes contain higher proportions of skin proanthocyanidins. Color and anthocyanin concentration decreased when the maceration was longer, whereas polysaccharide and proanthocyanidin concentrations did the opposite. It was also detected that the mDP and the percentage of prodelphinidins decreased when the maceration was extended, whereas the percentage of galloylation increased. These data seem to indicate that proanthocyanidin extraction from seeds is clearly increased throughout the maceration time.
Molecules
There is an increasing interest in the valorization of wine waste by-products. Grape pomace/marc can be an important source of polyphenols but also of polysaccharides (PSs). Therefore, the aim of this work was to extract PSs from grape pomace and musts and incorporate them into wines to improve their quality and valorize these residues. Two white wines were elaborated and treated with four different PS extracts obtained from white grape pomace, white must, a wine purified extract rich in RG-II, and commercial inactivated yeasts. In general, the use of grape PSs extracted from grape pomace or must improve some characteristics of wine, increasing the polysaccharide and volatile concentrations. These PS extracts can be useful to modulate some taste attributes such as an excess of acidity and bitterness and can also prevent the loss of volatile compounds associated with fruity and floral notes over time. This is the first study that shows the effects of grape polysaccharides on the chem...
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The aim of this study is to determine the phenolic and polysaccharidic composition, texture properties, and gene expression of new seedless table grape cultivars Timco™ and Krissy™ and compare them to the traditional table grape variety Crimson Seedless (Vitis vinifera L.), during ripening and in commercial postharvest conditions. According to the results, phenolic compounds were present in very different proportions. The total anthocyanins responsible for skin color increased during maturation and the majority anthocyanin in the three cultivars was peonidin-3-glucoside, followed by malvidin-3-glucoside. The phenolic compounds presented a different behavior (decreasing or increasing) during postharvest. The total skin soluble polysaccharides decreased during ripening and postharvest in Crimson Seedless and Krissy™ and remained constant from technological maturity to postharvest storage in Timco™. In all cultivars, the majority soluble polysaccharide fraction was that with a molecula...
2012
Extended maturation of wine grapes is employed to achieve optimum berry flavour development and phenolic maturity for the desired wine style. While it has been suggested that fruit maturity may also influence the extraction efficiency of colour and mouthfeel compounds from grapes into wine during processing, this has not been thoroughly evaluated. One aim of this research was to determine the impact of grape harvest date on the colour metrics and phenolic compounds in wines made from grapes harvested beyond historic or traditional maturity levels. To investigate this, berry phenolic composition and concentration were measured over two seasons (2008 and 2009) throughout post-veraison maturity of Vitis vinifera L. cv. Cabernet Sauvignon grapes, along with the composition and concentration of colour and phenolics in the wines produced from these grapes. The data did not support the notion of increased extractability of phenolic compounds with grape maturity. However, the relative wine phenolic concentrations themselves might be more commercially relevant than extractability. Based on the 2008 grape and wine phenolic data, concentrations in wine appeared directly related to the grape concentrations. Unfortunately, the trends were not as clear in 2009. Grape malvidin-3-glucoside and polymeric tannin concentrations increased with ripening and the wine concentrations trended similarly. Grape caftaric acid, catechin, epicatechin, and B2 dimer concentrations declined with ripening, and this was reflected in their concentrations in the wine.
International Journal of Food Science & Technology, 2017
The phenolic composition of red wines is complex and intimately involved in colour, taste, mouth-feel and aroma. There have been significant advances in knowledge of compounds with relatively simple structures, but understanding of those with more complex and probably diverse structures is challenging. A number of phenolic compounds may form temporary complexes with anthocyanins and/or be involved in reactions that lead to relatively stable coloured compounds. A wide range of phenolic compounds is implicated in the oral sensory attributes of red wines. Of particular importance are flavan-3-ols, including proanthocyanidins (PAs). The generally observed decline in the extractability of PAs during berry ripening is due to binding with cell wall material, which may occur within the developing berry and also from tissues brought into contact during processing. Studies have shown that exposure/reduced vigour results in an increasing proportion of skin PAs being extractable during wine making. Temperature and light influence anthocyanin with temperature probably being more important and the most sensitive stage being 1-3 weeks after v eraison. Skin PAs are extracted earlier than those from seeds during winemaking. Recent results suggest some rearrangement of skin and/or seed PAs occurs during vinification which involves the cleavage of large polymers or the aggregation of small ones. The polymeric material is particularly influential in wine astringency and is transformed by incorporation of anthocyanins into tannin-like compounds during wine-making and storage. Although some grape-derived phenolic compounds contribute to the aroma of red wines, likely of greater importance are the effects of nonvolatile phenolics on the volatility of a diverse range of aroma compounds. Advances in analytical techniques are likely to provide greater insights into the structures and conformations of phenolic polymers and the role of cell wall material in relation to phenolic extraction and reaction during vinification. In relation to aroma, much more research is required to reveal the details of the interactions involving phenolics with volatile compounds. It seems likely that the ability to influence the relative extraction and subsequent reaction of skin and seed phenolics is important in the production of full colour, aromatic and long-lived wines.
Wine and grape polyphenols—A chemical perspective
Food Research International, 2011
Phenolic compounds constitute a diverse group of secondary metabolites which are present in both grapes and wine. The phenolic content and composition of grape processed products (wine) are greatly influenced by the technological practice to which grapes are exposed. During the handling and maturation of the grapes several chemical changes may occur with the appearance of new compounds and/or disappearance of others, and consequent modification of the characteristic ratios of the total phenolic content as well as of their qualitative and quantitative profile. The non-volatile phenolic qualitative composition of grapes and wines, the biosynthetic relationships between these compounds, and the most relevant chemical changes occurring during processing and storage will be highlighted in this review.
Biochimie, 1987
Soluble pectic polysaccharides were isolated from musts of seven mature grape cultivars by a 4-step procedure: pressing of the berries, denaturation of soluble proteins from must by emulsification with chloroform, elimination of diffusable molecules by extensive dialysis and finally discoloration onto Polyamide CC6. The polysaccharides were mainly constituted of arabinose, galactose and galacturonic acid, and their concentration in musts varied from 133 to 593 mg/l. The arabinose/galactose molar ratio was stable (0.91 -1.04) for all cultivars, but one, Cinsaut (0.68). Methylation analyses showed that the polysaccharides from musts are a complex mixture of type II arabinogalactans, arabinans and rhamnogalacturonans. Similarities were observed in the relative distributions of galactose and arabinose structural features except for the Cinsaut and Grenache cultivars in which higher proportions of 3-and 3,6-1inked galactose were found. grape must / Vitis vinifera / pectic polysaccharides I type II arabinogalactans