New Insights on 3-Mercaptohexanol (3MH) Biogenesis in Sauvignon Blanc Wines: Cys-3MH and (<i>E</i>)-Hexen-2-al Are Not the Major Precursors

Subileau, Maeva; Schneider, Rémi; Salmon, Jean-Michel; Degryse, Eric

doi:10.1021/jf801626f

Cited by 113 publications

(111 citation statements)

References 30 publications

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“…It has been shown more recently that glutathione precursors are an equally, if not more important, source of these pleasant smelling polyfunctional thiols (Subileau et al 2008, Fedrizzi et al 2009, Grant-Preece et al 2010, Roland et al 2010, Winter et al 2010. A recent study documented that the glutathione-conjugated 3MH diastereomers were up to 35 times more abundant than their cysteineconjugated counterparts in juices of Sauvignon blanc, Riesling, Chardonnay, and Pinot Grigio; Sauvignon blanc juices generally had the highest concentrations of the varieties studied .…”

Section: Volatile Sulfur Compoundsmentioning

confidence: 96%

“…A main research focus has been on the release of polyfunctional thiols during fermentation, due primarily to the fact that yeasts have limited and varied capacity to liberate the polyfunctional thiols from their precursors (Subileau et al 2008, Winter et al 2011. For example, estimates from the literature vary from 0.1 to 12% conversion of cysteine-3MH to 3MH (and 3MHA) (Subileau et al 2008), representing only a small fraction of the polyfunctional thiols present in juice and leaving significant pools of both cysteine and glutathione precursors in finished wines .…”

Section: Volatile Sulfur Compoundsmentioning

confidence: 99%

“…For example, estimates from the literature vary from 0.1 to 12% conversion of cysteine-3MH to 3MH (and 3MHA) (Subileau et al 2008), representing only a small fraction of the polyfunctional thiols present in juice and leaving significant pools of both cysteine and glutathione precursors in finished wines . It has been established that yeast strains having carbon-sulfur β-lyase activity release these polyfunctional thiols during fermentation (Howell et al 2005, Ugliano 2009, Holt et al 2011.…”

Section: Volatile Sulfur Compoundsmentioning

confidence: 99%

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Origins of Grape and Wine Aroma. Part 1. Chemical Components and Viticultural Impacts

Robinson

Boss

Solomon

et al. 2013

Am. J. Enol. Vitic.

254

250

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Abstract:Wine is an ancient beverage and has been prized throughout time for its unique and pleasing flavor. Wine flavor arises from a mixture of hundreds of chemical components interacting with our sense organs, producing a neural response that is processed in the brain and resulting in a psychophysical percept that we readily describe as "wine." The chemical components of wine are derived from multiple sources; during fermentation grape flavor components are extracted into the wine and new compounds are formed by numerous chemical and biochemical processes. In this review we discuss the various classes of chemical compounds in grapes and wines and the chemical and biochemical processes that influence their formation and concentrations. The overall aim is to highlight the current state of knowledge in the area of grape and wine aroma chemistry.

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Section: Volatile Sulfur Compoundsmentioning

confidence: 96%

Section: Volatile Sulfur Compoundsmentioning

confidence: 99%

Section: Volatile Sulfur Compoundsmentioning

confidence: 99%

See 1 more Smart Citation

Origins of Grape and Wine Aroma. Part 1. Chemical Components and Viticultural Impacts

Robinson

Boss

Solomon

et al. 2013

Am. J. Enol. Vitic.

254

250

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“…Some precursors in the juice have been identified as being cysteinylated or glutathionylated precursors (Tominaga et al, 1998b;Peyrot des Ganchos et al, 2002;Fedrizzi et al, 2009). However, studies have shown that these precursors account for only a fraction of the total amount of thiols present in the wine (Subileau et al, 2008a;Roland et al, 2010a;2010b), and no direct correlation between precursor concentration and the amount of free volatile thiols in the resulting wines has been observed Roland et al, 2011;Pinu et al, 2012). Other than release from precursors, the biogenesis of volatile thiols also has been proposed.…”

Section: Volatile Thiolsmentioning

confidence: 99%

Sauvignon Blanc Wine: Contribution of Ageing and Oxygen on Aromatic and Non-aromatic Compounds and Sensory Composition : A Review

Coetzee

Toit

2015

SAJEV

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Oxidation and the capacity for sufficient ageing potential of white wines are constant problems for winemakers worldwide. In general, it is accepted that certain grape varieties are especially sensitive to oxidation, suggesting that some of the chemical components key to their sensory attributes are strongly modulated by oxygen exposure. Sauvignon blanc is a well-documented example of an oxygen-sensitive wine, and understanding the stability of various compounds is crucial in order to preserve the fresh and fruity characters of Sauvignon blanc wines while preventing the formation of off-odours over a long period of time. Compounds such as the volatile thiols and methoxypyrazines are key aroma compounds responsible for the typical Sauvignon blanc aroma, while other aroma compounds, such as esters, alcohols and acids, can also contribute to the wine aroma. Oxidation-related compounds (such as aldehydes) can occur under certain conditions and it is essential to understand the chemistry behind oxidation to control and manage the development of various characteristics in wine. The sensory interactions occurring between various compounds (both aromatic and non-aromatic) are also important due to enhancing or suppressive effects that can mask certain aroma nuances. This review focuses on the stability of certain compounds of Sauvignon blanc wines during oxidation and ageing and how it affects the aromatic and non-aromatic composition of these wines. ABBREVIATIONS

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“…However, several researches have indicated that no clear correlation between precursor concentrations in must and free thiol concentration in wine exist [8,16,59,73,80,[85][86][87][88][89].…”

Section: Varietal Thiol Precursorsmentioning

confidence: 99%

Occurrence and Analysis of Sulfur Compounds in Wine

Fracassetti¹,

Vigentini²

2018

Grapes and Wines - Advances in Production, Processing, Analysis and Valorization

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Sulfur compounds play an important role in the sensory characteristics of wine. These molecules can derive from the grape, in which the non-volatile forms are usually present as glycosylated molecules, the metabolic activities of yeast and bacteria, the chemical reactions taking place during the wine aging and storage, and the environment. The sulfur compounds include molecules positively correlated to the aromatic profile of wine, namely the volatile thiols, and are responsible for certain defects, imparting notes described as cabbage, onion, rotten egg, garlic, sulfur and rubber. Due to the low concentration of these molecules in wine, their high reactivity and the matrix complexity, the analytical methods which enable their detection and quantification represent a challenge. The solid phase microextraction (SPME) technique has been developed for sulfur compounds associated with off-flavors. The analysis of volatile thiols usually requires a derivatization followed by gas chromatography (GC)-MS or UPLC-MS methods. Besides the sulfur-containing aromas, another sulfur compound that deserves mention is the reduced glutathione (GSH) which has been widely studied due to its antioxidant properties. The analysis of GSH has been proposed using a liquid chromatography technique (HPLC or UPLC) coupled with fluorescence, MS and UV detectors.

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New Insights on 3-Mercaptohexanol (3MH) Biogenesis in Sauvignon Blanc Wines: Cys-3MH and (E)-Hexen-2-al Are Not the Major Precursors

Cited by 113 publications

References 30 publications

Origins of Grape and Wine Aroma. Part 1. Chemical Components and Viticultural Impacts

Origins of Grape and Wine Aroma. Part 1. Chemical Components and Viticultural Impacts

Sauvignon Blanc Wine: Contribution of Ageing and Oxygen on Aromatic and Non-aromatic Compounds and Sensory Composition : A Review

Occurrence and Analysis of Sulfur Compounds in Wine

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