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葡萄酒发酵中两种新型非常规酵母(Nakazawaea ishiwadae 和 Lodderomyces elongisporus)的出现及酿酒特性。

Occurrence and enological properties of two new non-conventional yeasts (Nakazawaea ishiwadae and Lodderomyces elongisporus) in wine fermentations.

机构信息

Department of Genetics, Physiology and Microbiology, Unit of Microbiology, Biology Faculty, Complutense University of Madrid, 28040 Madrid, Spain.

Science Department, Biome Makers Spain, 47011 Valladolid, Spain.

出版信息

Int J Food Microbiol. 2019 Sep 16;305:108255. doi: 10.1016/j.ijfoodmicro.2019.108255. Epub 2019 Jun 20.

DOI:10.1016/j.ijfoodmicro.2019.108255
PMID:31252247
Abstract

The microbial diversity of wine alcoholic fermentation is not restricted to the presence and activity of Saccharomyces yeast strains. Some non-Saccharomyces species have been described as part of the fermentative microbiota, specially found in the initial steps of wine fermentations. These species may play roles from wine spoilage to flavor quality enhancement. From a large number of wine fermentations (429 wine samples), analyzed by ITS-amplicon sequencing to define their mycobiome, 2 non-conventional yeast species (Nakazawaea ishiwadae and Lodderomyces elongisporus) were detected, in a very limited number of samples but in significant levels of relative abundance. One strain of each species was isolated and their technological and enological potential have been characterized in this work. Compared with the Saccharomyces cerevisiae Viniferm Revelacion wine strain, the studied N. ishiwadae BMK17.1 and L. elongisporus BMK12.5 strains showed, as expected, a lower tolerance and growth fitness in high ethanol concentrations. However, N. ishiwadae BMK17.1 was able to grow also at 15% ethanol and L. elongisporus BMK12.5 at 10% reaching, in the latter case, slightly higher efficiency rates than S. cerevisiae at this level. Contrary to most non-Saccharomyces yeasts, these species were able to growth in presence of high doses of potassium-metabisulfite, reaching in both cases higher efficiency rates than S. cerevisiae. A notable affinity of L. elongisporus BMK12.5 for high pH values was clearly observed. Their fermentation kinetics and the final chemical-analytical characterization were studied in micro-fermentation assays, using synthetic grape must. L. elongisporus BMK12.5 was able to complete, in single inoculation, the sugar fermentation after 19 days, but, N. ishiwadae BMK17.1 left about 80 g/L sugars at this time. Co-inoculation assays (in a 1:100 proportion of S. cerevisiae:non-Saccharomyces strains) finished sugar consumption with similar kinetics than the S. cerevisiae single inoculation, in the case of L. elongisporus BMK12.5 co-inoculation, and with lower kinetics when using N. ishiwadae BMK17.1. A remarkable malic acid consumption and a low acetic acid production was associated with L. elongisporus BMK12.5 fermentations, together with a high production of 3-methyl-1-butanol and 2-phenylethanol, and the release of high amounts of proteins into the wines. N. ishiwadae BMK17.1, although unable to finish the fermentation itself, showed a high production of oligosaccharides and volatile compounds such as isobutanol or isobutyric acid. This work reports, for the first time, the occurrence and enological potential of two strains pertaining to the non-conventional yeast genera Lodderomyces and Nakazawaea.

摘要

葡萄酒酒精发酵的微生物多样性不仅限于酿酒酵母菌株的存在和活性。一些非酿酒酵母物种被描述为发酵微生物群的一部分,特别是在葡萄酒发酵的初始步骤中发现。这些物种可能会从葡萄酒变质到增强风味质量等方面发挥作用。通过对 429 个葡萄酒样本进行 ITS 扩增子测序来定义其真菌组,在非常有限的样本中但在相对丰度上检测到 2 种非传统酵母(Nakazawaea ishiwadae 和 Lodderomyces elongisporus)。从每个物种中分离出一株,并在这项工作中对其技术和酿酒潜力进行了表征。与酿酒酵母 Viniferm Revelacion 菌株相比,研究的 N. ishiwadae BMK17.1 和 L. elongisporus BMK12.5 菌株表现出预期的在高乙醇浓度下较低的耐受性和生长适应性。然而,N. ishiwadae BMK17.1 能够在 15%乙醇中生长,L. elongisporus BMK12.5 能够在 10%乙醇中生长,在后一种情况下,其效率略高于酿酒酵母在该水平的效率。与大多数非酿酒酵母不同,这些物种能够在高剂量偏亚硫酸钾存在下生长,在这两种情况下,其效率都高于酿酒酵母。可以清楚地观察到 L. elongisporus BMK12.5 对高 pH 值的明显亲和力。在微发酵试验中,使用合成葡萄汁对其发酵动力学和最终化学分析特性进行了研究。L. elongisporus BMK12.5 能够在单一接种后 19 天内完成糖发酵,但 N. ishiwadae BMK17.1 此时仍留下约 80 g/L 的糖。在 L. elongisporus BMK12.5 共接种的情况下,与酿酒酵母单接种的发酵动力学相似,而在 N. ishiwadae BMK17.1 共接种的情况下,发酵动力学较慢。L. elongisporus BMK12.5 发酵伴随着显著的苹果酸消耗和低乙酸生成,以及 3-甲基-1-丁醇和 2-苯乙醇的高产量,并将大量蛋白质释放到葡萄酒中。尽管 N. ishiwadae BMK17.1 本身无法完成发酵,但它表现出高产寡糖和挥发性化合物的特性,如异丁醇或异丁酸。这项工作首次报道了非传统酵母属 Lodderomyces 和 Nakazawaea 的两个菌株的存在和酿酒潜力。

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