Patagonian wines: the selection of an indigenous yeast starter

The use of selected yeasts for winemaking has clear advantages over the traditional spontaneous fermentation. The aim of this study was to select an indigenous Saccharomyces cerevisiae yeast isolate in order to develop a regional North Patagonian red wine starter culture. A two-step selection protocol developed according to physiological, technological and ecological criteria based on killer interactions was used. Following this methodology, S. cerevisiae isolate MMf9 was selected among 32 indigenous yeasts previously characterized as belonging to different strains according to molecular patterns and killer biotype. This isolate showed interesting technological and qualitative features including high fermentative power and low volatile acidity production, low foam and low sulphide production, as well as relevant ecological characteristics such as resistance to all indigenous and commercial S. cerevisiae killer strains assayed. Red wines with differential volatile profiles and interesting enological features were obtained at laboratory scale by using this selected indigenous strain.     

Relationship between molecular and enological features of Patagonian wine yeasts: relevance in selection protocols

Summary In this paper, a study of the relationship between genetic patterns, obtained by the combination of mtDNA-RFLP and PCR-amplified inter-δ sequence DNA polymorphism analysis, and relevant enological phenotypic data (fermentative power, specific productivity, volatile and total acidity) was carried out on Argentinean Saccharomyces cerevisiae isolates from north Patagonia. The use of a powerful statistical tool, Generalized Procrustes analysis, allowed us to weigh the relationship for each isolate in particular, denoting a good enough degree of agreement between molecular and physiological data for most of the population analysed. The inclusion of a physiological feature, as the killer sensitivity biotype, within identification methods resulted in a higher degree of discrimination among isolates and in better correlation between both characterizations. The combined use of methods based on molecular polymorphisms and killer biotype could be applied so as not to miss any isolate with differential enological properties in selection protocols.     

Patagonian wines: implantation of an indigenous strain of <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> in fermentations conducted in traditional and modern cellars

In this work we evaluate the implantation capacity of the selected S. cerevisiae indigenous strain MMf9 and the quality of the produced wines in a traditional (T) and a modern (M) cellar with different ecological and technological characteristics in North Patagonia (Argentina). Red musts were fermented in 10,000 l vats using the indigenous strain MMf9 as well as the respective controls: a fermentation conducted with a foreign starter culture (BC strain) in M cellar and a natural fermentation in T cellar. Since commercial S. cerevisiae starters are always used for winemaking in M cellar and in order to compare the results, natural fermentations and fermentations conducted by the indigenous strain MMf9 were performed at pilot (200 l) scale in this cellar, concomitantly. Thirty indigenous yeasts were isolated at three stages of fermentation: initial, middle and end. The identification of the yeast biota associated to vinifications was carried out using ITS1-5.8S-ITS2 PCR-RFLP. The intra-specific variability of the S. cerevisiae populations was evaluated using mtDNA-RFLP analysis. Wines obtained from all fermentations were evaluated for their chemical and volatile composition and for their sensory characteristics. A higher capacity of implantation of the indigenous MMf9 strain was evidenced in the fermentation carried out in M cellar (80% at end stage) than the one carried out in T cellar (40%). This behaviour could indicate that each cellar differs in the diversity of S. cerevisiae strains associated to wine fermentations. Moreover a higher capacity of implantation of the native starter MMf9 with regard to the foreign (BC) one was also found in M cellar. The selected indigenous strain MMf9 was able to compete with the yeast biota naturally present in the must. Additionally, a higher rate of sugar consumption and a lower fermentation temperature were observed in vinifications conducted by MMf9 strain with regard to control fermentations, producing wines with favourable characteristics. Even when its implantation in T fermentation was lower than that observed in M one, we can conclude that the wine features from MMf9 fermentations were better than those from their respective controls. Therefore, MMf9 selected indigenous strain could be an interesting yeast starter culture in North Patagonian wines.     

商业酵母在不同品种葡萄酒工业化生产中的定殖差异

[背景]酵母菌在葡萄酒酿造中起到重要的作用,接种商业活性干酵母(active dry yeast,ADY)进行葡萄酒酿造在国内较为普遍,然而商业酿酒酵母(Saccharomyces cerevisiae)对我国本土酵母菌资源的影响及二者竞争关系的相关报道不多.[目的]比较商业酿酒酵母在不同品种葡萄酒工业化生产中的定殖差...     

Experimental approach for target selection of wild wine yeasts from spontaneous fermentation of “Inzolia” grapes

The aim of this research was the study of indigenous yeasts isolated from spontaneous fermentation of Inzolia grapes, one of the most widespread native white grapes in Sicily (Italy). The use of selective medium for the isolation and the screening for sulphur dioxide tolerance were useful for the first selection among 640 isolates. The yeasts characterized by high SO₂ tolerance were identified at species level by restriction analysis of ITS region; although the majority of isolates were identified as S. cerevisiae, some non-Saccharomyces yeasts were found. Forty-seven selected yeasts, both S. cerevisiae and non-Saccharomyces yeasts, were characterized for genetic and technological diversity. The genetic polymorphism was evaluated by RAPD-PCR analysis, whereas the technological diversity was analyzed by determining the main secondary compounds in the experimental wines obtained by inoculating these yeasts. Both the molecular and metabolic profiles of selected yeasts were able to clearly discriminate S. cerevisiae from non-Saccharomyces yeasts. This research was useful for the constitution of a collection of selected indigenous yeast strains, including S. cerevisiae and non-Saccharomyces species possessing interesting enological traits. This collection represents a source of wild yeasts, among of which it is possible to select indigenous starters able to maintain the specific organoleptic characteristics of Inzolia wine.     

Survival of commercial yeasts in the winery environment and their prevalence during spontaneous fermentations

Inoculation of active dry yeasts during the wine-making process has become a common practice in most wine-producing regions; this practice may affect the diversity of the indigenous population of Saccharomyces cerevisiae in the winery. The aim of this work was to study the incidence of commercial yeasts in the experimental winery of Estación de Viticultura e Enoloxía de Galicia (EVEGA) and their ability to lead spontaneous fermentations. To do this, 64 spontaneous fermentations were carried out in the experimental cellar of EVEGA over a period of 7 years. Samples were taken from must and at the beginning, vigorous and final stages of fermentation. A representative number of yeast colonies was isolated from each sample. S. cerevisiae strains were characterised by analysis of mitochondrial DNA restriction patterns. The results showed that although more than 40 different strains of S. cerevisiae were identified, only 10 were found as the dominant strain or in codominance with other strains in spontaneous fermentations. The genetic profiles (mtDNA-RFLPs) of eight of these strains were similar to those of different commercial yeasts that had been previously used in the EVEGA cellar. The remaining two strains were autochthonous ones that were able to reach implantation frequencies as high of those of commercial yeasts. These results clearly indicated that commercial wine yeasts were perfectly adapted to survive in EVEGA cellar conditions, and they successfully competed with the indigenous strains of S. cerevisiae, even during spontaneous fermentations. On the other hand, autochthonous dominant strains that presented desirable oenological traits could be of interest to preserve wine typicity.     

贵州紫云刺葡萄自然发酵中野生酿酒酵母基因型多样性分析

[目的] 研究贵州紫云县刺葡萄自然发酵过程中野生酿酒酵母的基因型多样性,分析不同基因型酵母在不同发酵时期的动态变化,为优良酿酒酵母资源的开发利用提供理论依据。[方法] 采用Interdelta指纹图谱分析方法和微卫星分子标记法,研究贵州紫云县刺葡萄自然发酵中野生酿酒酵母的基因型多样性,并通过DPS软件分析不同基因型之间的遗传关系。[结果] 贵州紫云县刺葡萄自然发酵中共分离野生酿酒酵母75株,经Interdelta指纹图谱分析方法和微卫星分子标记法鉴定为10个基因型,其中基因型6、9、10、11、14、15、16为野生酿酒酵母独有的7个基因型,7、17和18为野生与商业酿酒酵母共有的3个基因型,此外,本研究所用其他商业酿酒酵母另有独有的9个基因型（1、2、3、4、5、8、12、13和19）。75株野生酿酒酵母中基因型17的占比最高为36%,其次为基因型10占比为13.3%。在自然发酵过程中不同基因型呈现此消彼长的变化,每一种基因型的菌株细胞密度在10⁴-10⁷ CFU/mL之间。[结论] 贵州紫云县刺葡萄自然发酵样品展现了丰富的酿酒酵母菌株基因型多样性,其中基因型10和17为主导基因型,该研究为贵州刺葡萄优良野生酿酒酵母资源的开发奠定了基础。     

接种发酵和自然发酵中酿酒酵母菌株多样性比较

[目的]探究自然发酵和接种发酵两种发酵方式,对霞多丽葡萄发酵中酵母菌种多样性和酿酒酵母菌株遗传多样性的影响.[方法]以霞多丽葡萄为原料,分别进行自然发酵和接种不同酿酒酵母菌株(NXU 17-26、UCD522和UCD2610)的发酵,利用26S rDNA D1/D2区序列分析和Interdelta指纹图谱技术分别进行酵...     

The use of killer biotyping in an ecological survey of yeast in an old patagonian winery

An ecological study of Saccharomyces cerevisiae strains in spontaneous alcoholic fermentation has been made in the same winery on two consecutive years (1993 and 1994) with Merlot type musts, and with Malbec type must on a third year (1998). Saccharomyces cerevisiae strains associated with winery surfaces were also analysed. Differential killer sensitivity patterns related to a killer reference panel of 10 killer yeasts belonging to nine species of four genera were used as a quick and simple procedure to discriminate between indigenous S. cerevisiae isolates at the strain level. Although a great diversity of wild strains was observed, two main indigenous S. cerevisiae strains, designated as S. cerevisiae 9 and S. cerevisiae 13, took over the Merlot type fermentation in both years. These strains also appeared in Malbec must fermentation during the year 1998 and they were again found on the winery surface the next year. These results show that some few and stable indigenous S. cerevisiae strains remained in the environmental winery over the considered period of time (1993–1999) and they represent an additional evidence of the taking over of musts by local strains of S. cerevisiae.     

Killer phenotype of indigenous yeasts isolated from Argentinian wine cellars and their potential starter cultures for winemaking

Of 31 yeasts, from different surfaces of two cellars from the northwest region of Argentina, 11 expressed killer activity against the sensitive strain Saccharomyces cerevisiae P351. Five of these killer yeasts were identified as S. cerevisiae by phenotypic tests and PCR-RFLP analysis. Two S. cerevisiae killer strains, Cf5 and Cf8, were selected based on their excellent kinetic and enological properties as potential autochthonous mixed starter cultures to be used during wine fermentation. They could dominate the natural microbiota in fermentation vats and keep the typical sensorial characteristics of the wine of this region.     

Occurrence of <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> killer yeasts in wine-producing areas of Greece

The occurrence of the killer character was studied in 840 Saccharomyces cerevisiae isolates at the end of spontaneous fermentations in four wine-producing regions of Greece, Mantinia and Nemea in Peloponnese and the islands Limnos and Santorini. The incidence of killer strains varied from one region to another. Sensitive and neutral strains were also found among the S. cerevisiae strains. Using the plate bioassay at pH 4.5 two different killer phenotypes were detected among the killer isolates which differed in their degree of killer activity. They were designated as SK (strong killer) and WK (weak killer). The proportion of SK to WK phenotypes differed from one area to another. All killer isolates were assayed for expression of killer activity also at pH 3.5. The lower pH decreased the killer activity of all isolates and changed the proportion of SK to WK phenotypes. The percentage of WK phenotypes increased in all cases and some killer isolates lost their killer activity completely, but generally the killer activity remained significant, especially in the area of Mantinia where the SK phenotype remained dominant at the low pH found in musts and wine.     

Yeast species associated with spontaneous wine fermentation of Cabernet Sauvignon from Ningxia,China

The eastern base of the Helan Mountains in Ningxia is a fast developing wine production area in China. Of urgent necessity to the Ningxia wine industry is to be able to produce wines with typical regional characteristics. It is well known that autochthonous yeast species and strains play an important role in introducing local character or terroir into the winemaking practice. The aim of this study was to investigate indigenous yeast species diversity and preselect desirable S. cerevisiae strains in the Ningxia region. Four hundred wine-related yeast colonies were isolated from Cabernet Sauvignon musts in three vineyards at the beginning, middle and final stages of spontaneous fermentations. Yeast species were first classified according to colony morphologies on Wallerstein Laboratory Nutrient Agar (WL) and confirmed by sequencing of the D1/D2 domain of the 26S rRNA gene. Nine unique colony morphology types were profiled on WL agar and three new types were found. After sequence analysis of representative colonies from each WL group, nine yeast species were identified, namely H. uvarum, H. occidentalis, M. pulcherrima, C. zemplinina, H. vineae, I. orientalis, Z. bailii, P. kluyveri and S. cerevisiae. The non-Saccharomyces yeasts appeared mainly in the early stage of the fermentation while H. uvarum, I. orientalis and P. kluyveri were able to remain in the final stage. Fourty-six S. cerevisiae isolates were preselected according to physiological characteristics and twelve strains with valuable fermentation properties were obtained.     

Newly generated interspecific wine yeast hybrids introduce flavour and aroma diversity to wines

Increasingly, winemakers are looking for ways to introduce aroma and flavour diversity to their wines as a means of improving style and increasing product differentiation. While currently available commercial yeast strains produce consistently sound fermentations, there are indications that sensory complexity and improved palate structure are obtained when other species of yeast are active during fermentation. In this study, we explore a strategy to increase the impact of non-Saccharomyces cerevisiae inputs without the risks associated with spontaneous fermentations, through generating interspecific hybrids between a S. cerevisiae wine strain and a second species. For our experiments, we used rare mating to produce hybrids between S. cerevisiae and other closely related yeast of the Saccharomyces sensu stricto complex. These hybrid yeast strains display desirable properties of both parents and produce wines with concentrations of aromatic fermentation products that are different to what is found in wine made using the commercial wine yeast parent. Our results demonstrate, for the first time, that the introduction of genetic material from a non-S. cerevisiae parent into a wine yeast background can impact favourably on the wine flavour and aroma profile of a commercial S. cerevisiae wine yeast.     

Dynamics of Saccharomyces cerevisiae populations in controlled and spontaneous fermentations for Franciacorta D.O.C.G. base wine production

The evolution of the yeast populations was investigated during controlled and spontaneous fermentations of Chardonnay must in two Franciacorta wineries (A and B) that used the same starter culture. Two hundred and three isolates were collected and identified as Saccharomyces cerevisiae (97.5 %), Pichia membranifaciens (2.0 %) and Hanseniaspora vinae (0.5 %) through the analyses of ITS rDNA region by RFLP, D1/D2 of 26S rDNA partial sequence and scHO gene. A high intraspecific diversity of S. cerevisiae isolates was detected by means of the inter-delta sequence PCR analysis: 117 profiles corresponding to different strains were distinguished (at level of similarity <90.5 %) and monitored to follow the dynamics of cell populations. In winery A, the commercial strain maintained the predominance since its δ-PCR profile constituted most of the colonies recovered at different times of sampling (from 44 to 100 % of plate counts), in this case only 18 different genotypes out of 74 isolates were recognized. In winery B, where spontaneous fermentations were performed in the same environment, the starter culture never took control and a succession of indigenous populations overcame without one prevailed on the others; actually, 40 genotypes out of 53 isolates can be identified. The highest level of biodiversity was observed in spontaneous fermentation (winery B) where 59 genotypes out of 71 S. cerevisiae isolates were discriminated; a continuous change in cell populations was noticed with the simultaneous presence from 6 to 10 different genotypes. The management of the starter culture and the environmental hygiene was shown to be fundamental to control the inoculated fermentations.     

Occurrence and Growth of Killer Yeasts during Wine Fermentation

Sixteen wine fermentations were examined for the presence of killer yeasts. Killer property and sensitivity to killer action were found in isolates of Saccharomyces cerevisiae but not in isolates of Kloeckera, Candida, Hansenula, and Torulaspora spp. Several killer and killer-sensitive strains of S. cerevisiae were differentiated by colony morphology, and this property was used to monitor their growth kinetics in mixed cultures in grape juice. Killer-sensitive strains died off within 24 to 48 h during mixed-strain fermentation. Killer action was demonstrated at pH 3.0 and pH 3.5 and over the range of 15 to 25°C but depended on the proportion of killer to killer-sensitive cells at the commencement of fermentation. The dominance of killer strains in mixed-strain fermentations was reflected in the production of ethanol, acetic acid, and glycerol.     

Influence of red wine fermentation oenological additives on inoculated strain implantation

Pure selected cultures of Saccharomyces cerevisiae starters are regularly used in the wine industry. A survey of S. cerevisiae populations during red wine fermentations was performed in order to evaluate the influence of oenological additives on the implantation of the inoculated strain. Pilot scale fermentations (500 L) were conducted with active dry yeast (ADY) and other commercial oenological additives, namely two commercial fermentation activators and two commercial tannins. Six microsatellite markers were used to type S. cerevisiae strains. The methodology proved to be very discriminating as a great diversity of wild strains (48 genotypes) was detected. Statistical analysis confirmed a high detection of the inoculated commercial strain, and for half the samples an effective implantation of ADY (over 80 %) was achieved. At late fermentation time, ADY strain implantation in fermentations conducted with commercial additives was lower than in the control. These results question the efficacy of ADY addition in the presence of other additives, indicating that further studies are needed to improve knowledge on oenological additives’ use.     

Intraspecific diversity of Oenococcus oeni strains determined by sequence analysis of target genes

Using molecular techniques and sequencing, we studied the intraspecific diversity of Oenococcus oeni, a lactic acid bacterium involved in red winemaking. A relationship between the phenotypic and genotypic characterization of 16 O. oeni strains isolated from wine with different levels of enological potential was shown. The study was based on the comparative genomic analysis by subtractive hybridization between two strains of O. oeni with opposite enological potential. The genomic sequences obtained from subtractive hybridization were amplified by polymerase chain reaction and sequenced for the 16 strains. A considerable diversity among strains of O. oeni was observed.     

Saccharomyces cerevisiae biodiversity in spontaneous commercial fermentations of grape musts with 'adequate' and 'inadequate' assimilable-nitrogen content

AIM: To evaluate whether intraspecific diversity of Saccharomyces cerevisiae in wine fermentations is affected by initial assimilable-nitrogen content. METHODS AND RESULTS: Saccharomyces cerevisiae isolates from two spontaneous commercial wine fermentations started with adequate and inadequate nitrogen amounts were characterized by mitochondrial DNA restriction analysis. Several strains occurred in each fermentation, two strains, but not the same ones, being predominant at frequencies of about 30%. No significant differences were detected by comparing the biodiversity indices of the two fermentations. Cluster analysis demonstrated that the strain distribution was independent of nitrogen content, the two pairs of closely related dominant strains grouping into clusters at low similarity. CONCLUSIONS: The genetic variability of S. cerevisiae in wine fermentations seemed not to depend on the nitrogen availability in must. SIGNIFICANCE AND IMPACT OF THE STUDY: Nitrogen content did not affect the genetic diversity but may have induced a 'selection effect' on S. cerevisiae strains dominating wine fermentations, with possible consequences on wine properties.     

Polymorphisms of <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> Genes Involved in Wine Production

The setting up of new molecular methods for Saccharomyces cerevisiae typing is valuable in enology. Actually, the ability to discriminate different strains in wine making can have a benefit both for the control of the fermentation process and for the preservation of wine typicity. This study focused on the screening of single-nucleotide polymorphisms in genes involved in wine production that could evolve rapidly considering the selective pressure of the isolation environment. Preliminary screening of 30 genes in silico was performed, followed by the selection of 10 loci belonging to 8 genes. The sequence analysis showed a low polymorphism and a degree of heterozygosity. However, a new potential molecular target was recognized in the TPS1 gene coding for the trehalose-6-phosphate synthase enzyme involved in the ethanol resistance mechanism. This gene showed a 1.42% sequence diversity with seven different nucleotide substitutions. Moreover, classic techniques were applied to a collection of 50 S. cerevisiae isolates, mostly with enologic origin. Our results confirmed that the wine making was not carried out only by the inoculated commercial starter because indigenous strains of S. cerevisiae present during fermentation were detected. In addition, a high genetic relationship among some commercial cultures was found, highlighting imprecision or fraudulent practices by starter manufacturers.     

Evolution of malolactic bacteria and biogenic amines during spontaneous malolactic fermentations in a Greek winery

AIMS: To study the population dynamics of indigenous malolactic bacteria in a Greek winery and to examine their potential to produce detrimental levels of biogenic amines (BA) under winemaking conditions. METHODS AND RESULTS: Although the wines studied were of different vintage, grape variety and enological characteristics, molecular typing of malolactic bacteria revealed only a low number of strains within the single-species populations of Oenococcus oeni that developed during spontaneous fermentations. Strain MF1, originating primarily from the vineyards surrounding the winery invariably predominated in almost all samples. HPLC analysis showed a slight increase in the BA, putrescine, tyramine and phenylethylamine after malolactic conversion, while histamine, methylamine and ethylamine remained unaffected. No correlation could be established between the BA profiles and the bacterial compositions or the amino acid concentrations in wine samples studied. CONCLUSIONS: A certain regional bacterial flora is established in the winery that prevails in spontaneous malolactic fermentations (MLF) irrespective of the wine characteristics. In all cases, the BA content of the wines after malolactic conversion was within enologically acceptable levels. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report on the malolactic bacteria occurring naturally in spontaneous MLF in Greek red wines and a preliminary assessment of their impact on wine safety in relation to BA.