Classical and molecular analyses to characterize commercial dry yeasts used in wine fermentations

AIMS: The aim of the work was to apply PCR-temperature gradient gel electrophoresis (PCR-TGGE) and restriction enzyme analysis (RE) assays to identify commercially available starters of Saccharomyces cerevisiae sensu stricto complex. METHODS AND RESULTS: To characterize an analysed pool of 62 active dry yeasts of different brands used in wine fermentation practices, classical microbiological tests were also performed as well as evaluation of contamination with lactic acid bacteria and non-Saccharomyces yeasts. PCR-TGGE and RE were used in order to provide fast and reliable methods to identify and differentiate enological yeasts. Proposed molecular methods enabled to identify particular strains within 36 h after colony isolation and directly from dry yeast suspension. CONCLUSIONS: The methods are highly recommended to obtain reliable results on yeast strain differentiation in a significantly shorter time if compared to classical fermentation tests. SIGNIFICANCE AND IMPACT OF THE STUDY: The obtaining of yeast strain differentiation in a short time and without plating is a good tool for a rapid discrimination among enological strains used as starters in enological practices.     

Genetically different wine yeasts isolated from Austrian vine-growing regions influence wine aroma differently and contain putative hybrids between Saccharomyces cerevisiae and Saccharomyces kudriavzevii

To evaluate the influence of the genomic properties of yeasts on the formation of wine flavour, genotypic diversity among natural Saccharomyces cerevisiae strains originating from grapes collected in four localities of three Austrian vine-growing areas (Thermenregion: locations Perchtoldsdorf and Pfaffst?tten, Neusiedlersee-Hügelland: location Eisenstadt, Neusiedlersee: location Halbturn) was investigated and the aroma compounds produced during fermentation of the grape must of 'Grüner Veltliner' were identified. Amplified fragment length polymorphism analysis (AFLP) showed that the yeast strains cluster in four groups corresponding to their geographical origin. The genotypic analysis and sequencing of the D1/D2 domain of 26S rRNA encoding gene and ITS1/ITS2 regions indicated that the Perchtoldsdorf strains were putative interspecies hybrids between S. cerevisiae and Saccharomyces kudriavzevii. Analysis of the aroma compounds by GS/MS indicated a region-specific influence of the yeasts on the chemical composition of the wines. The aroma compound profiles generated by the Perchtoldsdorf strains were more related to those produced by the Pfaffst?tten strains than by the Eisenstadt and Halbturn strains. Similar to the Pfaffst?tten yeasts, the putative hybrid strains were good ester producers, suggesting that they may influence the wine quality favourably.     

拉格啤酒酵母菌物种和株系的快速分子鉴定

近年来的基因组学研究结果已证实拉格啤酒酵母Saccharomyces pastorianus是一个由艾尔啤酒酵母S. cerevisiae和真贝氏酿酒酵母S. eubayanus杂交而成的杂交种,并可根据地域传承和染色体倍性分为两个株系,即I型/Saaz系和II型/Frohberg系。前者主要为异源3倍体,后者则主要为异源4倍体。为了探讨中国啤酒酿造酵母菌的物种和菌系归属,我们根据拉格啤酒酵母及其两个菌系的基因组特性,制定了一套基于IntFR片段种特异性扩增和ITS-RFLP分析的精确但简便易行的拉格啤酒酵母菌物种和株系鉴定新方法,并以酿酒酵母属内相关种的模式或权威菌株和部分酒精及面包酵母为参照,对保藏于中国普通微生物菌种保藏中心（CGMCC）的41株啤酒酿造酵母菌进行了重新鉴定和分型。这些菌株除1株原定名为贝氏酿酒酵母S. bayanus外,其余菌株的原定名均为S. cerevisiae。研究结果确认了S. bayanus菌株鉴定的正确性,但在其余的40株啤酒酵母菌株中,21株属于S. cerevisiae,1株属于葡萄汁酿酒酵母S. uvarum,18株属于S. pastorianus。菌系鉴定和流式细胞测定结果显示在确认的S. pastorianus菌株中,1株为I型/Saaz系,3倍体;17株为II型/Frohberg系,其中9株为4倍体,两株为3倍体,5株介于3倍至4倍体之间。啤酒酵母物种和株系的确认对优化发酵工艺和菌种选育及遗传改造等具有重要意义。     

Metabolic profiling as a tool for revealing Saccharomyces interactions during wine fermentation

The multi-yeast strain composition of wine fermentations has been well established. However, the effect of multiple strains of Saccharomyces spp. on wine flavour is unknown. Here, we demonstrate that multiple strains of Saccharomyces grown together in grape juice can affect the profile of aroma compounds that accumulate during fermentation. A metabolic footprint of each yeast in monoculture, mixed cultures or blended wines was derived by gas chromatography - mass spectrometry measurement of volatiles accumulated during fermentation. The resultant ion spectrograms were transformed and compared by principal-component analysis. The principal-component analysis showed that the profiles of compounds present in wines made by mixed-culture fermentation were different from those where yeasts were grown in monoculture fermentation, and these differences could not be produced by blending wines. Blending of monoculture wines to mimic the population composition of mixed-culture wines showed that yeast metabolic interactions could account for these differences. Additionally, the yeast strain contribution of volatiles to a mixed fermentation cannot be predicted by the population of that yeast. This study provides a novel way to measure the population status of wine fermentations by metabolic footprinting.     

PCR differentiation of Saccharomyces cerevisiae from Saccharomyces bayanus/Saccharomyces pastorianus using specific primers

The aim of the present study was to design species-specific primers capable of distinguishing between Saccharomyces cerevisiae, Saccharomyces bayanus/Saccharomyces pastorianus. The 5'-specific primers were designed from the ITS-1 region (between positions 150 and 182 from the 3'-SSU end) and the 3'-specific primers were located in the LSU gene (positions 560-590 from the 5'-end of this gene). These primers were tested with different collections and wild strains of these species and the results showed that the primers were capable of distinguishing between S. cerevisiae strains and S. bayanus/S. pastorianus. Not enough sequence differences were found between S. bayanus and S. pastorianus to design specific primers for these species using this region. This method offers an effective tool for a quick differentiation of the Saccharomyces strains of the most common species involved in industrial processes.     

A molecular genetic study of natural strains of Saccharomyces isolated from Asturian cider fermentations

AIMS: To analyse the genetic diversity and the dynamics of Saccharomyces strains in spontaneous fermentation in ciders. The effect of the cellar, harvest and cider-making technology were evaluated. METHODS AND RESULTS: The ecology of spontaneous cider fermentations in the same cellar (Asturias) was studied for two consecutive harvests (2000 and 2001) by using mtDNA restriction analysis. Our results showed that there was a succession of genetically different strains of Saccharomyces during cider production. In general, strains of Saccharomyces bayanus species predominated at the early fermentation steps (begining and/or tumultuous fermentations), while Saccharomyces cerevisiae yeasts were the most abundant at the end of the fermentation. Five S. bayanus strains (patterns III, VII, VIII, XV and XVII) were present at significant frequencies in all the experimental tanks during the two consecutive years. The results of the cluster analysis (unweighted pair group method using average linkage) showed higher similarities for the patterns III, XV, VII and VIII. Therefore, these strains should be considered associated with the microbiota of this cellar. CONCLUSIONS: A high polymorphism within populations of Saccharomyces was found throughout the different stages of Asturian production of cider. In all the cider fermentations, a variable number of S. bayanus and S. cerevisiae strains was always present. Our results indicate, over the period of time studied, the existence of the natural microbiota in the cellar. SIGNIFICANCE AND IMPACT OF THE STUDY: This study has allowed us to gain a better understanding of the role of wild Saccharomyces yeast in Asturian cider fermentations.     

Characterization of natural hybrids of Saccharomyces cerevisiae and Saccharomyces bayanus var. uvarum

Nine yeast strains were isolated from spontaneous fermentations in the Alsace area of France, during the 1997, 1998 and 1999 grape harvests. Strains were characterized by pulsed-field gel electrophoresis, PCR-restriction fragment length polymorphism (RFLP) of the MET2 gene, delta-PCR, and microsatellite patterns. Karyotypes and MET2 fragments of the nine strains corresponded to mixed chromosomal bands and restriction patterns for both Saccharomyces cerevisiae and Saccharomyces bayanus var. uvarum. They also responded positively to amplification with microsatellite primers specific to both species and were demonstrated to be diploid. However, meiosis led to absolute nonviability of their spores on complete medium. All the results demonstrated that the nine yeast strains isolated were S. cerevisiaexS. bayanus var. uvarum diploid hybrids. Moreover, microsatellite DNA analysis identified strains isolated in the same cellar as potential parents belonging to S. bayanus var. uvarum and S. cerevisiae.     

A genetically isolated population of Saccharomyces cerevisiae in Malaysia

A divergent population of Saccharomyces cerevisiae has been identified in Malaysia by molecular and genetic analysis. It has also demonstrated that the yeast S. bayanus may be found in South America. The origin of S. cerevisiae is discussed.     

A possible application of ale brewery strains ofSaccharomyces cerevisiae in lager beer production

The physiological characteristics of two strains of brewery ale yeasts,Saccharomyces cerevisiae, with sedimentation abilities, were investigated to see if the strains were suitable for lager beer production. Compared with typical industrial ale strains ofS. cerevisiae and lager strains ofS. uvarum (nowS. cerevisiae), the investigated strains differ in fermentation dynamics, as well as in biological properties. The differences, however, particularly between the two strains and the lager brewing yeasts, were not significant.     

Rapid identification and differentiation of Saccharomyces cerevisiae, Saccharomyces bayanus and their hybrids by multiplex PCR

AIMS: To develop a multiplex PCR assay for the specific identification and differentiation of Saccharomyces cerevisiae, S. bayanus and their hybrids. METHODS AND RESULTS: Two sets of primers with sequences complementary to the region YBR033w were used. A single amplicon of 1710 bp or 329 bp was obtained with species S. cerevisiae and S. bayanus, respectively, while the presence of both bands was observed in S. pastorianus because of its hybrid nature. Both amplification products were also obtained after amplification from DNA of several laboratory S. cerevisiae x S. bayanus hybrid strains. CONCLUSIONS: Multiplex PCR was optimized for the rapid and reliable identification of S. cerevisiae, S. bayanus and their hybrids. SIGNIFICANCE AND IMPACT OF THE STUDY: The procedure may be used for routine detection of the most common Saccharomyces sensu stricto yeasts involved in industrial fermentation processes, overcoming the problems of conventional techniques.     

A comparative study on physiological activities of lager and ale brewing yeasts under different gravity conditions

High gravity (HG) or very high gravity (VHG) brewing has become popular in modern breweries due to its economic and product quality advantages. However, there are the negative impacts such as the fermentation performance of brewer??s yeast in HG or VHG wort, which are closely related to changes in cell physiological activity. In the present study, 3 kinds of worts, with different gravities, were used to examine the systematic effects on fermentation performance and physiological activity of lager yeast FBY009505 (Saccharomyces pastorianus) and ale yeast FBY0099 (Saccharomyces cerevisiae), as well as the resulting beer flavor. Results showed that the responses of FBY009505 and FBY0099 to the HG or VHG worts were similar. The specific fermentation rate and viability of cropped yeast of FBY009505 and FBY0099 were decreased with increasing wort gravity. The increased wort gravity resulted in the increase of energy charge and the decrease of ??-glucosides transport rate and glycolytic enzyme activities. Moreover, the environmental stresses in the HG or VHG wort showed a higher inhibitory activity against ??-glucoside transport than glycolytic enzymes. The content of intracellular trehalose and glycerol of FBY009505 and FBY0099 increased with the increase in wort gravity. The results from this study provided a potential means to systematically understand the physiology of brewer??s yeast under HG or VHG conditions.     

Winemaking of musts at high osmotic strength by thermotolerant yeasts

Fermentation performance of 15 thermotolerant Saccharomyces cerevisiae in three musts from dried grapes at 25, 30, and 40° brix was studied. When the osmotic strength was increased, the volatile acidity and the SO₂ production in the wines also increased: in the must with 40° brix, yeasts produce from 1.63 to 3.65 g acetic acid l^–1 and from 40 to 73.6 mg SO₂ l^–1 due to osmotic stress. From 9.75 to 13.40 ethanol v/v production is observed in must at 30°brix, whereas at 40°brix there is a clear detrimental effect.     

Isolation and identification of yeasts associated with vineyard and winery by RFLP analysis of ribosomal genes and mitochondrial DNA

Yeast colonies isolated from vineyard and cellar substrates were analysed in the present study. Yeast species assessment was carried out by amplification and digestion of a region of the ribosomal RNA gene repeat unit. Saccharomyces strains were also characterised using mitochondrial DNA restriction analysis. Oxidative basidiomycetous yeasts without enological potential were predominant in the vineyard environment. Yeasts associated with grape skin depend on grape variety, vintage and degree of grape maturation. These species from grape surface constituted the predominant microbiota in must and they developed during the first stages of the process. Yeasts colonies were also isolated and identified from the walls of a fermentation vat some days before the harvest. Contrary to what was expected, Saccharomyces cerevisiae was not the major species isolated as Candida sorbosa represented 76% of the species isolated. Saccharomyces strains isolated from the fermentation vat had been previously isolated in wine fermentations in this cellar. Therefore, these strains should be considered as constant residents of this winery.     

De novo synthesis of monoterpenes by Saccharomyces cerevisiae wine yeasts

This paper reports the production of monoterpenes, which elicit a floral aroma in wine, by strains of the yeast Saccharomyces cerevisiae. Terpenes, which are typical components of the essential oils of flowers and fruits, are also present as free and glycosylated conjugates amongst the secondary metabolites of certain wine grape varieties of Vitis vinifera. Hence, when these compounds are present in wine they are considered to originate from grape and not fermentation. However, the biosynthesis of monoterpenes by S. cerevisiae in the absence of grape derived precursors is shown here to be of de novo origin in wine yeast strains. Higher concentration of assimilable nitrogen increased accumulation of linalool and citronellol. Microaerobic compared with anaerobic conditions favored terpene accumulation in the ferment. The amount of linalool produced by some strains of S. cerevisiae could be of sensory importance in wine production. These unexpected results are discussed in relation to the known sterol biosynthetic pathway and to an alternative pathway for terpene biosynthesis not previously described in yeast.     

多粮浓香型白酒中特征酵母菌与耐酸乳杆菌的关系

【背景】多菌种协同代谢是浓香型白酒发酵的根本特征之一。【目的】探究多粮浓香型白酒发酵过程中功能微生物菌株间的相互协作关系,为实现发酵过程优化提供理论基础。【方法】采用传统分离培养法获得了多粮浓香型白酒发酵过程中的特征酵母菌和耐酸乳杆菌,并探讨了共培养过程中菌株的相互关系以及主要挥发性代谢产物的变化。【结果】共分离到3株优势特征性酵母菌(KazachstaniahumilisZ1、PichiakudriavzeviiZ2、CandidaethanolicaZ3)和1株耐酸乳杆菌(Lactobacillus acetotolerans W)。K. humilis Z1和L. acetotolerans W共培养体系中耐酸乳杆菌数量明显少于纯培养L. acetotolerans W的菌体数量;3株酵母菌均一定程度抑制L. acetotolerans W产乳酸,K. humilis Z1能抑制L. acetotolerans W不产乳酸;K. humilis Z1纯培养与Z1W共培养体系的挥发性代谢产物的构成相似;纯培养P. kudriavzevii Z2与Z2W共培养体系的挥发性代谢产物差异明显,主要表现为共培养时乙酸乙酯和乳酸乙酯含量显著增加。【结论】在共培养体系条件下,产乙醇酵母菌对耐酸乳杆菌的乳酸代谢有抑制作用,而耐酸乳杆菌又对酵母菌的乙醇代谢有一定影响,这对多粮浓香型白酒品质调控和菌群间相互关系具有重要意义。     

代谢改造酿酒酵母合成萜类化合物的研究进展

萜类化合物是一类种类繁多、功能多样的化合物,部分具有抗癌、增强免疫力等作用,具有良好的生物活性,在食品、保健品以及医疗等领域应用广泛.近年来,随着对萜类化合物生物合成途径研究的深入,研究人员采用代谢工程手段构建了多种萜类产物的高产酿酒酵母工程菌株,部分已经达到或者接近工业化生产水平.因此,采用合成生物学相关技术手段合成...     

The presence of Saccharomyces cerevisiae DNA in various media used to propagate yeasts and its removal by ethidium monoazide

Aims:  In this study we demonstrate the interference of yeast extract in enumeration of Saccharomyces cerevisiae using real-time PCR and develop a method for its removal from the media using ethidium monoazide (EMA).
Methods and Results:  Using real-time PCR and primers to S. cerevisiae we demonstrate the presence of yeast DNA in various media as well as the media impact on S. cerevisiae real-time PCR standard curves. By pretreatment with EMA, we were able to remove this interference.
Conclusions:  Saccharomyces cerevisiae DNA can be found in a number of common laboratory media and may impact the enumeration of this yeast by real-time PCR. However, pretreatment with EMA eliminates this concern.
Significance and Impact of the Study:  We have developed a method for removal of contaminating DNA in yeast growth media.     

Phytase-active yeasts from grain-based food and beer

Aims: To screen yeast strains isolated from grain‐based food and beer for phytase activity to identify high phytase‐active strains. Methods and Results: The screening of phytase‐positive strains was carried out at conditions optimal for leavening of bread dough (pH 5·5 and 30°C), in order to identify strains that could be used for the baking industry. Two growth‐based tests were used for the initial testing of phytase‐active strains. Tested strains belonged to six species: Saccharomyces cerevisiae, Saccharomyces pastorianus, Saccharomyces bayanus, Kazachstania exigua (former name Saccharomyces exiguus), Candida krusei (teleomorph Issachenkia orientalis) and Arxula adeninivorans. On the basis of initial testing results, 14 strains were selected for the further determination of extracellular and intracellular (cytoplasmic and/or cell‐wall bound) phytase activities. The most prominent strains for extracellular phytase production were found to be S. pastorianus KVL008 (a lager beer strain), followed by S. cerevisiae KVL015 (an ale beer strain) and C. krusei P2 (isolated from sorghum beer). Intracellular phytase activities were relatively low in all tested strains. Conclusions: Herein, for the first time, beer‐related strains of S. pastorianus and S. cerevisiae are reported as phytase‐positive strains. Significance and Impact of the Study: The high level of extracellular phytase activity by the strains mentioned previously suggests them to be strains for the production of wholemeal bread with high content of bioavailable minerals.