酵母菌的分离培养及发酵实验方法

通过分离培养得到纯种酵母菌并对其进行观察区分;用几种酵母菌进行糖发酵实验,比较酵母菌对不同糖的利用能力;利用培养所得到的酿酒酵母和假丝酵母酿造葡萄酒,测量葡萄酒的酒精度数,对比确定哪一种酵母菌的酿酒效果更好、产酒率更高。通过平板划线法及稀释涂布法获得纯种的酵母菌种,同时结合菌落形态观察法初步区分酵母菌的种类;通过压滴法区别酵母菌的细胞形态;通过美蓝染色法鉴别酵母菌的死活;采用穿刺接种法分别将酵母接种在带有指示剂的半固体培养基上。3种实验酵母都不发酵乳糖,酿酒酵母的发酵蔗糖和葡萄糖的能力远不及红酵母和假丝酵母。酿酒酵母所酿造出的葡萄酒酒精度数高于假丝酵母。     

葡萄酒相关酵母的香气形成及香气特征

一系列相关微生物的代谢及相互作用贯穿在葡萄酒的酿造过程中,其中各种酵母菌的代谢产物是影响葡萄酒感官特征的关键,不同菌种代谢产生不同的挥发性物质,造成对葡萄酒香气的最直接影响。介绍了酿酒酵母以及非酿酒酵母的代谢特征与差别,由此所引起的葡萄酒气味的不同表现,以及发酵过程中不同菌种的相互作用,总结了近些年来对非酿酒酵母酿酒特性的研究与利用。目前已证实非酿酒酵母的一些代谢特征对葡萄酒香气和香气结构具有一些积极的作用,并且酿酒酵母和有些非酿酒酵母的结合使用对改善葡萄酒感官也具有良好的作用与发展前景。     

葡萄酒相关酵母的香气形成及香气特征

一系列相关微生物的代谢及相互作用贯穿在葡萄酒的酿造过程中,其中各种酵母菌的代谢产物是影响葡萄酒感官特征的关键,不同菌种代谢产生不同的挥发性物质,造成对葡萄酒香气的最直接影响。介绍了酿酒酵母以及非酿酒酵母的代谢特征与差别,由此所引起的葡萄酒气味的不同表现,以及发酵过程中不同菌种的相互作用,总结了近些年来对非酿酒酵母酿酒特性的研究与利用。目前已证实非酿酒酵母的一些代谢特征对葡萄酒香气和香气结构具有一些积极的作用,并且酿酒酵母和有些非酿酒酵母的结合使用对改善葡萄酒感官也具有良好的作用与发展前景。     

云南香格里拉葡萄酒产区酿酒相关酵母菌的生物多样性

【背景】云南香格里拉高原葡萄酒产区位于云南三江并流世界自然遗产保护区内,微生物资源丰富,其中与葡萄酒酿造相关的野生酵母种类也非常多样。【目的】研究香格里拉葡萄酒产区酿酒相关酵母菌的种类多样性和酿酒酵母的遗传多样性。【方法】从香格里拉金沙江和澜沧江两岸选取5个葡萄园进行成熟葡萄样品的采集,分别对葡萄果皮和自然发酵过程中的酵母菌进行分离,运用WL营养琼脂鉴定培养基(Wallerstein laboratory nutrient agar)和26S rDNA D1/D2区序列分析法对酵母的种类进行鉴定,用SSR分子标记的方法研究酿酒酵母的遗传多样性。【结果】从香格里拉葡萄酒产区成熟浆果上共分离到230株野生酵母,鉴定为13属18种,其中有10种酵母为香格里拉地区首次发现。用SSR分子标记的方法对香格里拉分离到的47株酿酒酵母进行遗传多样性分析,47株酿酒酵母被分为24种基因型,11个微卫星位点共检测到70个等位基因,平均多态信息含量(PIC)为0.640,平均观测杂合度(Ho)为0.166,平均期望杂合度(He)为0.693。【结论】香格里拉葡萄酒产区酵母菌资源丰富,表现出较高的物种多样性和中等程度的酿酒酵母遗传多样性。研究该产区酵母菌的多样性,为香格里拉酵母资源多样性的保护和利用奠定基础。     

基于可培养法分析新疆葡萄与葡萄酒相关酵母菌菌群结构

从葡萄、葡萄发酵物、土壤及酒厂设备分离到3 991株新疆本土葡萄酒酵母菌,并通过Wallerstein Laboratory(WL)营养琼脂培养形态分类、代表菌株26S rDNA Dl/D2和5.8S-ITS区域序列鉴定,对新疆葡萄酒酵母菌株进行系统分类和多样性分析,得到22个WL培养类型,7个属13个种。伊犁和于田地区酵母菌种类最多,达10个种;叶城地区和中信国安、乡都酒业、野果林(伊犁)酒厂酵母菌种类最少,仅有1种。新疆优势种为葡萄汁有孢汉逊酵母(Hanseniaspora uvarum)和酿酒酵母(Saccharomyces cerevisiae)。陆生毕赤酵母(Pichia terricola)、Metschnikowia aff、核果梅奇酵母(Metschnikwoia fructicola)、韩国梅奇酵母(Metschnikwoia koreensis)在新疆地区首次分离鉴定到。对新疆葡萄酒相关的酵母菌群落结构进行全面分析,结果显示新疆与葡萄酒相关的酵母菌丰富多样。为新疆葡萄酒酵母资源的开发利用和葡萄酒的质量控制等奠定了菌种基础。     

崇明老白酒酿造过程中酵母菌的鉴定及其特性初探

从八二酒曲及酿造崇明老白酒过程中分离纯化得到1株白色酵母菌和1株红色酵母菌,采用分子生物学方法进行鉴定,并对其酿造老白酒的特性进行了分析。结果显示,八二酒曲及崇明老白酒酿造过程中的优势酵母菌为酿酒酵母(Saccaromyces cerevisiae),从酿酒过程中分离的红色酵母菌为粘红酵母(Rhodotorula mucilaginosa)。采用粘红酵母和米根霉曲酿造的酒液的酒精度为11.9%vol,残余还原糖含量为11.2 g/100 m L,总酸含量为4.59 g/L,总酯含量为4.42 g/L。纯化的酿酒酵母和米根霉曲酿成的酒液口味醇和爽口,酒曲的纯化有助于开发出口感更爽口的老白酒。混合酵母和米根霉曲酿造的酒液呈典型的崇明老白酒风味,粘红酵母的参与对崇明老白酒口味风格的形成有一定的作用。     

信息库

1　用法弗克鲁维酵母的杀伤毒素控制葡萄酒细尖酵母酵母杀伤毒素在发酵工业中 ,可用于控制野生酵母的生长。当前 ,在葡萄酒工业中用于酿造和改进葡萄酒质量的杀伤酵母属于酿酒酵母 (Ｓａｃｃｈａｒｏｍｙｃｅｓｃｅｒｅｖｉｓｉａｅ)。但是Ｋ2型酿酒酵母的杀伤毒素对酵母的杀伤谱比较窄 ,只能杀伤敏感的酿酒酵母 ,对其他野生酵母 ,如有孢汉逊酵母 (Ｈａｎｓｅｎｉａｓｐｏｒａ) ,克勒克酵母 (Ｋｌｏｅｃｋｅｒａ) ,毕赤酵母 (Ｐｉｃｈｉａ) ,类酵母 (Ｓａｃｃｈａ ｒｏｍｙｃｏｄｅｓ)等属的菌株没有杀伤作用。研究表明 ,在葡萄表面和新鲜葡…     

葡萄酒酿酒酵母嗜果糖特性的评价方法

[目的]酿酒酵母的嗜果糖性是葡萄酒酵母选育工作的一项重要内容.建立评价菌体发酵果糖能力的方法,是葡萄酒酿酒酵母嗜果糖性研究的基础.[方法]以3株不同果糖发酵能力的酵母菌为研究对象,考察菌体在模拟葡萄汁培养基条件下,发酵情况与单糖利用之间的关系;并通过数学方程拟合单糖动力发酵曲线,得到发酵持续时间、葡萄糖浓度拟为0时的果糖浓度、果糖与葡萄糖曲线面积的差值等参数.[结果]这些参数可以反应出菌体的发酵速率和嗜果糖性.其中后两个参数能显著将3个菌株的嗜果糖特性区分开.[结论]为高果糖利周优良葡萄酒酿酒酵母菌株的筛选和构建,提供了较为全面、客观和有效的评价方法.     

苹果酸降解相关基因在酿酒酵母中的表达

微生物降酸是现代葡萄酒酿造重要工艺。将裂殖酵母苹果酸通透酶基因(mae1)和苹果酸酶基因(mae2)克隆到酿酒酵母中,构建了苹果酸酒精酵母;将mae1基因和乳酸乳球菌的苹果酸乳酸酶基因(mleS)克隆到酿酒酵母中,构建了苹果酸乳酸酵母。构建的酵母重组子能够有效地分解发酵基质中的苹果酸。     

四川甘孜州高山葡萄酒产区酵母菌多样性分析

【背景】西南高山葡萄酒产区的甘孜州产区,具有生产优质葡萄酒的自然禀赋。【目的】研究四川甘孜州葡萄酒产区真核微生物种类多样性、本土酿酒酵母遗传多样性,以及商业酵母对本土酵母多样性的影响。【方法】利用ITS高通量测序技术对赤霞珠接种发酵和自然发酵过程中的微生物进行多样性分析,并利用Interdelta指纹图谱分析法,对经过26S rRNA基因鉴定的野生酿酒酵母基因型进行分类。【结果】ITS测序结果显示,接种发酵和自然发酵各时期均注释到7个科7个属的酵母,通过Interdelta指纹图谱分析发现甘孜州产区的酿酒酵母共有5种基因型。该产区酿酒酵母的6株代表菌株与我国其他产区109株酿酒酵母的进化树分析结果显示,均与来自北京产区的酿酒酵母菌株亲缘关系更近。【结论】甘孜州葡萄酒子产区酵母资源丰富,表现出较高的微生物多样性和中等程度的本土酿酒酵母基因型多样性,为后续优良本土酵母菌株的筛选奠定基础。     

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(NXU17-26、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母菌的种间及种内水平的区分,通过聚类分析及多样性指数对不同发酵方式下酿酒酵母菌株的多样性进行分析和比较。【结果】自然发酵的发酵曲线较平缓,接种发酵的发酵速度显著快于自然发酵。26S rDNA D1/D2区序列分析将4个发酵中分离到的酵母菌鉴定为6属11种,自然发酵中分离的酵母有5属6种,均为非酿酒酵母(non-Saccharomyces);而接种发酵中的酵母多样性远低于自然发酵,均由酿酒酵母和两种非酿酒酵母组成。Interdelta指纹图谱分析表明,接种UCD2610的发酵中,发酵后UCD2610是优势菌株,其基因型占比为48.78%;接种NXU17-26和UCD522的发酵中,未发现与NXU17-26和UCD522相同的基因型。聚类分析表明,分离自接种UCD522发酵中的酿酒酵母菌株间的遗传差异性较小;而分离自NXU17-26和UCD2610发酵中的酿酒酵母菌株间遗传差异性较大。多样性指数结果表明,接种UCD2610发酵中的优势菌株(UCD2610)在发酵过程中占据更加突出的地位;接种UCD522发酵中分离的酿酒酵母具有更高的多样性,影响其菌株多样性的未知因素较多,且不同基因型酿酒酵母的集中度较高。【结论】发酵方式对霞多丽葡萄发酵中酵母菌种多样性、以及酿酒酵母菌株遗传多样性的影响显著,研究结果对葡萄酒发酵中的微生物控制具有指导意义。     

贺兰山东麓优良本土酿酒酵母筛选及发酵特性分析

【背景】商业酵母的使用造成葡萄酒同质化问题严重,发掘优良本土酿酒酵母具有十分重要的意义。【目的】从168株宁夏本土酿酒酵母菌株中筛选出性能优良、具有出色葡萄酒发酵能力的菌株。【方法】基于杜氏管发酵试验和乙醇、高糖等耐受性试验分析产H2S能力及生长曲线测定的方法,筛选出发酵力好、耐受性强、低产H2S的本土酿酒酵母进行赤霞珠葡萄酒发酵试验,测定葡萄酒样基础理化指标、酚类物质和挥发性成分,探究筛选出的酿酒酵母发酵特性。【结果】初步筛选出发酵快速,能适应13%乙醇、350 g/L葡萄糖、250 mg/L SO2、pH 1.0的生存环境且低产H2S的4株本土酿酒酵母YC-E8、QTX-D17、QTX-D7、YQY-E18。菌株YC-E8产甘油能力强,所发酵酒样香气与商业酵母XR、F33最为接近,适用于赤霞珠葡萄酒的发酵。菌株QTX-D17发酵酒样中酒精、单宁、总酚和花色苷含量最高,表现出本土酿酒酵母优良的发酵特性。菌株QTX-D7所发酵酒样香气中乙酸乙酯、辛酸乙酯、1-壬醇等物质含量较高,赋予了葡萄酒香蕉味、苹果味、菠萝味、椰子味等愉悦花果香。【结论】最终筛选出3株优良本土酿酒酵母QTX-D17...     

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.     

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.     

Changes of diversity and population of yeasts during the fermentations by pure and mixed inoculation of Saccharomyces cerevisiae strains

Mixed inoculation of Saccharomyces cerevisiae strains is used in winemaking for achieving high sensory quality of the wine. However, information on the diversity and population of yeasts during inoculated fermentation is very limited. In this study, we evaluated the effect of mixed inocula with different inoculation timing on the yeast community during fermentations of Cabernet Sauvignon. Grape must was inoculated with pure cultures of S. cerevisiae RC212 or S. cerevisiae R312, and simultaneous and sequential inoculation of both strains. Wallersterin Laboratory Nutrient (WLN) medium and sequence of the 26S rDNA D1/D2 domain were used to compare the diversity of yeast species. Five species, including Candida diversa, Hanseniaspora opuntiae, H. uvarum, Issatchenkia orientalis and I. terricola, were identified in the grape must, with Issatchenkia sp. being predominant (67.5 %). Three to four species were involved in each fermentation treatment. The fermentations by mixed inocula presented more yeast species than by pure inocula. Interdelta sequence typing was used to identify S. cerevisiae strains. Ten genotypes were identified among 322 isolated S. cerevisiae strains. Their distribution varied among different stages of fermentations and different inoculation treatments. The inoculated strains were not predominant, while indigenous genotypes I, III, and V showed strong competitiveness during fermentation. In general, this study provided information on the change of population structure and genetic diversity of yeasts in fermentations inoculated with pure and mixed S. cerevisiae strains.     

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。     

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.     

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.     

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.