Department of Genetics, Physiology and Microbiology, Unit of Microbiology, Faculty of Biological Sciences, Complutense University of Madrid, Madrid, Spain.
Department of Microbiology and Biochemistry, Hochschule Geisenheim University, Geisenheim, Germany.
Int J Food Microbiol. 2024 Dec 2;425:110858. doi: 10.1016/j.ijfoodmicro.2024.110858. Epub 2024 Aug 15.
The aromatic profile of wine determines its overall final quality, and among the volatile molecules that define it, varietal thiols are responsible for shaping the distinctive character of certain wine varieties. In grape must, these thiols are conjugated to amino acids or small peptides in a non-volatile form. During wine fermentation, yeasts play a principal role in expressing these aromatic compounds as they internalise and cleavage these precursors, releasing the corresponding free and aroma-impacting fraction. Here, we investigate the impact of three wine yeasts (Saccharomyces cerevisiae, Torulaspora delbrueckii and Lachancea thermotolerans) on thiol releasing in synthetic grape must fermentations supplemented with different cysteinylated (Cys-4MSP and Cys-3SH) and glutathionylated (GSH-4MSP and GSH-3SH) precursors. We demonstrate higher consumption levels of cysteinylated precursors, and consequently, higher amounts of thiols are released from them compared to glutathionylated ones. We also report a significant impact of yeast inoculated on the final thiols released. Meanwhile T. delkbrueckii exhibits a great 3SHA releasing capacity, L. thermotolerans stands out because of its high 3SH release. We also highlight the synergic effect of the co-inoculation strategy, especially relevant in the case of S. cerevisiae and L. thermotolerans mixed fermentation, that has an outstanding release of 4MSP thiol. Although our results stem from a specific experimental approach that differs from real winemaking situations, these findings reveal the potential of unravelling the specific role of different yeast species, thiol precursors and their interaction, to improve wine production processes in the context of wine aroma enhancement.
葡萄酒的芳香特征决定了其整体最终品质,在定义葡萄酒的挥发性分子中,品种硫醇负责塑造某些葡萄酒品种的独特特征。在葡萄汁中,这些硫醇以非挥发性的形式与氨基酸或小肽结合。在葡萄酒发酵过程中,酵母在表达这些芳香化合物方面起着主要作用,因为它们将这些前体内化并切割,释放出相应的游离和香气影响部分。在这里,我们研究了三种葡萄酒酵母(酿酒酵母、德克氏毕赤酵母和耐热酒香酵母)对补充不同半胱氨酸化(Cys-4MSP 和 Cys-3SH)和谷胱甘肽化(GSH-4MSP 和 GSH-3SH)前体的合成葡萄汁发酵中硫醇释放的影响。我们证明了半胱氨酸化前体的消耗水平更高,因此与谷胱甘肽化前体相比,从它们中释放出的硫醇量更高。我们还报告了酵母接种对最终释放的硫醇的显著影响。同时,德克氏毕赤酵母表现出很高的 3SHA 释放能力,耐热酒香酵母因其高 3SH 释放而引人注目。我们还强调了共同接种策略的协同效应,特别是在酿酒酵母和耐热酒香酵母混合发酵的情况下,该策略对 4MSP 硫醇的释放具有突出的效果。尽管我们的结果源于与实际酿酒情况不同的特定实验方法,但这些发现揭示了揭示不同酵母种类、硫醇前体及其相互作用的特定作用的潜力,以提高葡萄酒生产过程中在增强葡萄酒香气的背景下。
