中条山野生葡萄产香酵母的筛选及其混菌发酵对葡萄酒香气成分的影响

【背景】产香酵母可赋予葡萄酒独特的香气,因此,分离筛选优良产香酵母对酿造具有地域风味的特色葡萄酒具有重要意义。【目的】从中条山野生葡萄中筛选产香酵母,进行种群鉴定和生理生化特性研究,并将其应用于葡萄酒发酵过程,研究其对葡萄酒香气成分的影响。【方法】采用稀释涂布平板法从中条山野葡萄中分离筛选酵母菌,对其进行分子生物学鉴定。优选其中具有显著香气的产香酵母,与酿酒酵母F15进行混合发酵,采用气相色谱质谱联用(gas chromatograph-mass spectrometer,GC-MS)对香气成分进行分析,采用半定量法测定香气成分含量。【结果】共分离获得各种菌株13株,26S rRNA基因D1/D2区序列分析表明它们分布于Issatchenkia、Torulaspora、Pichia、Saccharomyces和Rhodotorula等5个不同属内。优选其中一株香气较为浓郁的酵母菌株Issatchenkia orientalis strain XS-6开展研究,结果发现该菌株最高耐受乙醇浓度为8%,最高耐受NaCl浓度为6%,最适生长温度为38℃。与酿酒酵母F15混菌发酵的葡萄酒中共检测出31种香气成分。香气物质总含量较单菌发酵增加19.8%,其中11种香气成分含量增加明显,尤其是具有玫瑰香气的苯乙醇。醇类与酯类物质含量较单菌发酵增加19.6%,并发现了香草酸乙酯(ethyl vanillate)、邻苯二甲酸二丁酯(dibutyl phthalate)等7种新的酯类物质。【结论】产香酵母XS-6对乙醇、NaCl、温度等具有良好的耐受性,而且与酿酒酵母F15混菌发酵对西拉葡萄酒香气成分具有明显的影响,可能在改善葡萄酒风味方面具有潜在的应用价值。     

食品上的应用

941617可能用在发酵和治疗方面的克鲁维和汉逊酵母属的自杀酵母[英]/Michalcakova,S.…∥ActaBioteehnol.-1993,13(4).-341～350[译自DBA,1993,12(26),93-15264] 就其毒性范围对克鲁维和汉逊酵母的各个种进行了筛选,以用其构建具抗污染广谱活性的制葡萄酒酿酒酵母菌株。参试的49株克鲁维酵母中有5株(法弗克鲁维酵母CCY_(43-4-1)(UCD_(70-5))、马     

马克斯克鲁维酵母的木糖和阿拉伯糖发酵

马克斯克鲁维酵母作为非常规酵母在燃料乙醇发酵中受到人们越来越多的关注。马克斯克鲁维具有天然的发酵戊糖的能力,但不同菌株的发酵能力存在较大差异。本研究比较了3株马克斯克鲁维菌株Kluyveromyces marxianus 9009/1911/1727(K.m 9009/1911/1727)在不同温度下的木糖和阿拉伯糖的发酵性能差异,结果发现不同发酵温度下,3株菌在耗糖速率、糖醇产率均表现出了显著的差异。菌株K.m 9009和K.m 1727在40℃下的发酵性能均优于30℃,这充分体现了马克斯克鲁维酵母的高温发酵优势。针对发酵差异,采用PCR方法获得3个不同菌株的戊糖代谢途径中的5种关键代谢酶(XR、XDH、XK、AR和LAD)的基因序列,并利用Clustalx 2.1进行了序列比对。结果显示3株菌的相关基因与文献中报道的1株克鲁维酵母的相应关键酶氨基酸编码序列相似性达98%以上,并且差异的氨基酸不在酶的关键位点处。在此基础上,通过Real-time实验,对木糖发酵差异最为明显的K.m 1727和K.m 1911的木糖代谢过程4个关键酶(XR、XDH、XK和ADH)的基因表达量进行测定,其结果显示对于耐热菌株K.m 1727,XDH和XK基因表达量低是导致木糖代谢过程中木糖醇积累、乙醇产量低的主要原因。最后,将所测得的马克斯克鲁维酵母的戊糖代谢关键酶序列与其他不同种属相比对,确定了其木糖和阿拉伯糖代谢途径,为进一步利用代谢工程方法提高戊糖发酵性能奠定了基础。     

酿酒酵母和克鲁维酵母发酵菊芋生产燃料乙醇

为获得菌株发酵菊芋生产燃料乙醇的最佳方案,首先选取实验室保存的重组菌株R32对其产酶条件进行优化,其最高产菊粉酶活性为298.8 U· mL-1,此时的最佳培养基配方为:YPG培养基为酵母粉1％ (w/v),蛋白胨2％ (w/v),甘油0.5％ (v/v);YPM培养基为酵母粉1％ (w/v),蛋白胨2％ (w/v),甲醇1％(v/v);培养基pH为自然初始pH.然后选取酿酒酵母S.c和克鲁维酵母Klu,比较是否在添加重组菌株R32粗酶液条件下,两株酵母菌分别进行单独发酵和混合发酵时的产乙醇能力,以获得最佳的发酵组合.结果表明,酿酒酵母S.c和克鲁维酵母Klu在未添加重组菌株R32粗酶液时,混合一步发酵获得的乙醇含量较高,发酵84 h时乙醇含量为11.37％.添加重组菌株R32粗酶液进行两步发酵时,2株酵母菌混合发酵72 h时,乙醇含量为11.43％.2种发酵组合的最高乙醇含量以及各个发酵参数基本相同,虽然一步法发酵时间延长,但节省成本,操作简单,更适宜工业生产应用.最后对其进行正交试验优化,培养条件为菊粉浓度225 g· L-1,脲素浓度40 g·L-1,接种量15％,pH为5时,酿酒酵母菌S.c和克鲁维酵母Klu混合一步发酵法的最高乙醇体积比达11.82％.     

原生质体融合构建耐温酵母菌株(英文)

耐温的克鲁维酵母（Ｙ０３４）与产酒率高的酿酒酵母（Ａ００１）进行属间原生质体融合构建耐温酵母菌株,经ＤＴＴ分段预处理获得大量具再生活性原生质体对融合株ＡＹ０２３等进行了乙醇脱氢酶同工酶,麦芽糖同化,遗传稳定性及高温发酵分析,融合株ＡＹ０２３表达了双亲遗传特性。在４５℃高温发酵条件,乙醇产率高达７．４％,是目前已见文献报道的产酒率最高的耐温（４５℃）酵母菌株     

马克斯克鲁维酵母在工业生物技术中的应用

马克斯克鲁维酵母Kluyveromyces marxianus是目前研究较为广泛的一种非传统酵母,因其耐高温、生长速率快、底物谱广等诸多优势而越来越多地应用于工业生物技术领域。马克斯克鲁维酵母可以分泌菊粉酶、β-半乳糖苷酶等多种应用广泛的水解酶类;还可以利用菊粉类原料、乳清、糖蜜以及木糖等多种非粮底物生产乙醇;其在外源蛋白的分泌以及基因工程操作等工业分子生物学领域也取得了突破。现主要对近年来马克斯克鲁维酵母在产酶、乙醇发酵、分泌外源蛋白等诸多工业生物技术领域的研究进展及存在的挑战进行综述,为进一步推动马克斯克鲁维酵母在工业生物技术中的应用奠定基础。     

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…     

乳酸克鲁维酵母表达外源蛋白研究进展

乳酸克鲁维酵母已成功地应用于多种异源蛋白的表达生产之中。与其他酵母相比，乳酸克鲁维酵母具有许多优点，如超强的分泌能力，良好的大规模发酵特性、食品安全的级别及整合表达能力等，其作为宿主系统表达药用蛋白也已显示出巨大的潜力。从不同的菌属、遗传工程和分子生物学技术（如启动子、表达载体）等方面简要综述了乳酸克鲁维酵母作为蛋白表达宿主系统的优势。     

原生质体融合构建耐温酵母菌株#

耐温的克鲁维酵母(Y₀₃₄)与产酒率高的酿酒酵母(A₀₀₁。)进行属间原生质体融合构建耐温酵母菌株,经DTT分段预处理获得大量具再生活性原生质体对融合株AY₀₂₃等进行了乙醇脱氢酶同工酶,麦芽糖同化,遗传稳定性及高温发酵分析,融合株AY₀₂₃表达了双亲遗传特性。在45℃高温发酵条件,乙醇产率高达7.4％,是目前已见文献报道的产酒率最高的耐温(45℃)酵母菌株。     

一步法发酵菊芋产乙醇菌种的筛选及产酶条件、酶学性质的研究

从腐烂的菊芋及实验室保存的菌种中,选育到一株发酵菊芋产乙醇的菌株克鲁维酵母Kluyveromyces marxianus Y1。利用正交实验法对克鲁维酵母产菊粉酶的培养基组成及培养条件进行优化,确定培养基组成（g/L）为：菊粉40,酵母粉4,蛋白胨4,尿素1;初始pH5．0,温度30℃,150r／min条件下培养达到最佳产酶效果（57U／mL）。该菌株所产菊粉酶的性质测定结果表明：以菊粉为底物,该菊粉酶最适反应温度为55℃,在60℃以下稳定性很好,高于60℃时酶迅速失活;最适pH为5．0,pH4．6—5．2范围内酶稳定性很好;该酶属于外切型菊粉酶,体积分数为8％的乙醇对酶活力基本没有影响。     

Biological acidification during grape must fermentation using mixed cultures of <Emphasis Type="Italic">Kluyveromyces thermotolerans</Emphasis> and <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Four mixed culture fermentations of grape must were carried out with Kluyveromyces thermotolerans strain TH941 and Saccharomyces cerevisiae strain SCM952. In the first culture, both yeasts were added together, whereas in the remaining three cultures S. cerevisiae was added 1, 2, and 3 days after the inoculation of K. thermotolerans. The growth and survival of the K. thermotolerans strain and the amount of the produced l-lactic acid depend on the time of inoculation of the S. cerevisiae strain and provided an effective acidification during alcoholic fermentation. The four cultures contained, respectively, at the end of fermentation 0.18, 1.80, 4.28, and 5.13 g l-lactic acid l⁻¹. The grape must with an initial pH of 3.50 was effectively acidified (70% increase in titratable acidity, 0.30 pH unit decrease) by the production of 5.13 g l-lactic acid l⁻¹.     

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...     

Employing oxygen pulses to modulate <Emphasis Type="Italic">Lachancea thermotolerans</Emphasis>–<Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> Chardonnay fermentations

Oxygen is sometimes deliberately introduced in winemaking at various stages to enhance yeast biomass formation and prevent stuck fermentation. However, there is limited information on how such interventions affect the dynamics of yeast populations. Our previous study in synthetic grape juice showed that oxygen supply enhances the persistence of Lachancea thermotolerans, Torulaspora delbrueckii and Metschnikowia pulcherrima. The three non-Saccharomyces yeasts showed differences in growth as a function of oxygen. The present study focused on evaluating the influence of short oxygen pulses on population dynamics and the aroma profile of Chardonnay wine inoculated with L. thermotolerans and Saccharomyces cerevisiae. The results confirmed a positive effect of oxygen on the relative performance of L. thermotolerans. The mixed culture fermentation with L. thermotolerans with S. cerevisiae developed a distinct aroma profile when compared to monoculture S. cerevisiae. Specifically, a high concentration of esters, medium chain fatty acids and higher alcohols was detected in the mixed culture fermentation. The data also showed that the longer persistence of L. thermotolerans due to addition of oxygen pulses influenced the formation of major volatile compounds such as ethyl acetate, ethyl butyrate, ethyl hexanoate, ethyl caprylate, ethyl caprate, ethyl-3-hydroxybutanoate, ethyl phenylacetate, propanol, isobutanol, butanol, isoamyl alcohol, hexanol, isobutyric acid, butyric acid, iso-valeric acid, hexanoic acid, octanoic acid, and decanoic acid.     

Impact of different malolactic fermentation inoculation scenarios on Riesling wine aroma

During malolactic fermentation (MLF), lactic acid bacteria influence wine aroma and flavour by the production of volatile metabolites and the modification of aroma compounds derived from grapes and yeasts. The present study investigated the impact of different MLF inoculation strategies with two different Oenococcus oeni strains on cool climate Riesling wines and the volatile wine aroma profile. Four different timings were chosen for inoculation with bacteria to conduct MLF in a Riesling must/wine with a high acidity (pH 2.9–3.1). Treatments with simultaneous inoculation showed a reduced total fermentation time (alcoholic and malolactic) compared to the sequential inoculations. No negative impact of simultaneous alcoholic and malolactic fermentation on fermentation success and on the final wine volatile aroma composition was observed. Compared to sequential inoculation, wines with co-inoculation tended to have higher concentrations of ethyl and acetate esters, including acetic acid phenylethylester, acetic acid 3-methylbutylester, butyric acid ethylester, lactic acid ethylester and succinic acid diethylester. Results of this study provide some alternatives to diversify the number of wine styles by safely conducting MLF in low-pH, cool-climate white musts with potential high alcohol content.     

Growth and Fermentation Characteristics of a Strain of the Wine Yeast Kluyveromyces thermotolerans Isolated in Greece

Summary During the single culture fermentation of grape must K. thermotolerans, strain TH941, isolated in a wine-producing region in northern Greece, reached a very high cell concentration of 8.4 log (c.f.u ml⁻¹), followed by a rapid decline of the viable cells. The yeast produced 9.6 g L-lactic acid l⁻¹ during the growth phase, 7.58% v/v of ethanol and showed a limited degradation of L-malic acid as well as a low production of volatile acidity. In the presence of 3% v/v and 6% v/v of ethanol the K. thermotolerans isolate was able to grow. At 9% v/v of ethanol it could not grow but showed no loss of viability for 10 days.     

Malolactic fermentation in wine with high densities of non-proliferating Oenococcus oeni

Five strains of Oenococcus oeni (syn. Leuconostoc oenos) under non-proliferating conditions were assessed for the performance of the malolactic fermentation in wine at various initial pH values, malic acid concentration and densities of cells. We succeeded in inducing the malolactic fermentation after inoculation of high densities of O. oeni G6 even in recalcitrant wines where the traditional malolactic fermentation was inhibited by adverse environmental conditions (low pH and high concentration of malic acid). Optimal degrading conditions in wine, under different physico-chemical environments, were determined in order to achieve rapid depletion of malic acid in red wine. Off-odour compounds were not formed under these conditions, suggesting an attractive alternative for wine production. This revised version was published online in November 2006 with corrections to the Cover Date.     

发酵乳杆菌CSC-19胞外粗多糖提取物抑制单核细胞增生李斯特菌生物被膜形成能力的研究

【目的】筛选能有效抑制单核细胞增生李斯特菌(Listeria monocytogenes,LM)形成生物被膜的乳酸菌,分析其活性成分并进行功能表征。【方法】采用结晶紫染色法筛选抑制LM形成生物被膜的不同乳酸菌提取物;通过酸中和、蛋白酶处理及热处理,推测抑制生物被膜活性物质以胞外多糖(extracellular crude polysaccharide,ECP)为主;乙醇沉淀法提取目标乳酸菌分离株胞外粗多糖,分析其抑制生物被膜形成活性和对LM生长的影响;运用激光共聚焦扫描显微镜(laser confocal scanning microscopy,LCSM)和扫描电子显微镜(scanning electron microscopy,SEM)观察胞外粗多糖对生物被膜细胞形态和结构的影响。【结果】发酵乳杆菌CSC-19发酵上清液对1516-2LM生物被膜的抑制率为81.7%;经热和蛋白酶处理后,发酵上清抑制生物被膜形成的活性未发生显著变化(P>0.05),表明发酵上清液中抑制生物被膜形成的物质可能为胞外多糖;在不抑制LM生长的条件下所提取的胞外粗多糖抑制生物被膜形成能力具有浓度依赖性。激光共聚焦扫描显微镜和扫描电子显微镜结果显示,胞外粗多糖显著抑制了生物被膜的形成能力,生物被膜三维、有组织的蜂窝状结构被破坏,仅有少量的粘附细胞分散于细胞爬片表面。【结论】发酵乳杆菌CSC-19胞外粗多糖能有效抑制LM生物被膜的形成,有望应用于高效防控该菌污染食品。     

Sequence analysis of the α-galactosidase <Emphasis Type="Italic">MEL</Emphasis> gene governing the efficient production of ethanol from raffinose-rich molasses in the yeast <Emphasis Type="Italic">Lachancea thermotolerans</Emphasis>

The yeast Lachancea thermotolerans, formerly Kluyveromyces thermotolerans, was tested for the ethanol fermentation of raffinose-rich molasses. Two melibiose-fermenting strains, NBRC 10066 and NBRC 10067, produced more ethanol than eight other strains. The concentration of ethanol synthesized by NBRC 10066 was slightly higher than that by NBRC 10067, probably on the basis of the expression of α-galactosidase. The regions corresponding to the α-galactosidase MEL1 gene of Saccharomyces cerevisiae were amplified. The nucleotide sequences of the two genes designated as MELth1 and MELth2 revealed single open reading frames of 1,416 bp encoding 472 amino acids but differed from each other in one base that converted the amino acid composition. The sequences of the 5′-upstream region from −1 to −515 of the two genes are identical except for one base.     

Predominance of malolactic fermentation overd-glucose utilization inLactobacillus plantarum andLactobacillus curvatus wine strains

Summary Two selected wine strains of the genusLactobacillus (L. plantarum 197 andL. curvatus 783) were tested for their ability to complete malolactic fermentation (MLF) in a synthetic medium (PBM-broth) supplemented withL-malic acid (7.5–74.6 mM) andD-glucose (5.5–55 mM). The 24 directed fermentation assays, 12 for each bacterial strain, were carried out at 20°C and pH 3.5. MLF was completed (residualL-malic acid 0.2 mM) in eight days in 19 of the 24 fermentation assays, even in the presence of 74.6 mML-malic acid or 55.5 mMD-Glucose utilization was generally simultaneous to MLF but was completed (residual concentrations 0.2 mM) only in 6 of the 24 fermentation assays. These results support the use of these strains in directed MLF assays at the very differentL-malic acid andD-glucose concentrations tested.     

Multi-Loci Sequence Typing (MLST) for Two Lacto-Acid Bacteria (LAB) Species: <Emphasis Type="Italic">Pediococcus parvulus</Emphasis> and <Emphasis Type="Italic">P. damnosus</Emphasis>

The control of wine microbial population during and beyond fermentation is of huge importance for wine quality. Lactic acid bacteria (LAB) in wine are responsible for malolactic fermentation (MLF) which can be desired in some cases and undesirable in others. Some LAB do not perform MLF and their uncontrolled growth could contribute to severe wine spoilage such as undesired flavours. Their identification and detection is considered crucial for numerous biotechnological applications in food fermentations, where, through acidification and secretion of bacteriocins, they contribute to reduce food spoilage and growth of pathogenic microorganisms. LAB have traditionally been classified using morphological or biochemical features. Primary isolation, biochemical identification and phenotypic analysis are laborious, time consuming and inaccurate and often lead to misidentification within some genera such as Pediococcus. Molecular identification based on suitable marker genes could be an attractive alternative to conventional morphological and biochemical methods. We assessed here the applicability of four housekeeping genes recA, rplB, pyrG and leuS in combination with the mle gene in multi-loci sequence typing (MLST) of Pediococcus parvulus and Pediococcus damnosus. Sequencing and comparative analysis of sequence data were performed on 19 strains collected during wine fermentation. A combination of these five marker genes allowed for a clear differentiation of the strains analysed, indicating their applicability in molecular typing. Analysis of the observed nucleotide polymorphisms allowed designing highly discriminative primers for a multi-loci sequence typing (MLST) method that proved successful in detecting a particular isolate or sequence type of P. parvulus when using either conventional PCR or Real Time PCR.