内蒙古西部区酸粥中酵母菌的分离鉴定及优势菌分析

从内蒙古地区采集28份酸粥样品,从中分离出40株酵母菌,并对其进行了分子生物学鉴定和生物多样性分析。26S rDNA D1/D2区域 (600bp左右)碱基序列分析结果表明,酸粥中的酵母菌有Issatchenkia orientalis、Saccharomyces cerevisiae、Geotrichum sp.、Candida pararugosa、 Candida parapsilosis、Trichosporon asahii、Trichosporon coremiiforme、Clavispora lusitaniae和Candida tropicalis。经过分析,Issatchenkia orientalis(75%,Frequency percentage)为酸粥中的优势菌。     

一株分离于工业污水池的耐碱酵母

目的:从新疆温泉县一个碱性工业污水处理池中分离并鉴定耐碱酵母菌。方法:用稀释平板法分离菌种,通过形态学观察、生理生化特征及26S rDNA D1/D2区基因序列分析鉴定菌种。结果:从水样中分离得到一株耐碱酵母菌,它们能在pH3.5~11.0,12%NaCl,4~45℃生长,经形态观察及生理生化特征鉴定为酵母属,对其26S rDNA 5’端D1/D2区基因序列进行了PCR扩增并测序,GenBank注册号为DQ132884,同源序列分析结果表明该序列与酿酒酵母(Saccharomyces cerevisiae)Sb4有99.8%的同源性,因此将其命名为酿酒酵母(Saccharomyces cerevisiae)XJU-2,该菌种已保藏于中国微生物菌种保藏委员会普通微生物中心(CGM-CC),保藏号为CGMCC No.2.3095。结论:XJU-2的最高耐碱值可达pH 11.0,而且酸碱耐受范围很大,性能明显优于国内外已报道的酿酒酵母菌种。     

26S rDNA单链构象多态性分析在临床酵母菌菌种鉴定中的应用

摘要： 【目的】探讨酵母菌临床分离株26S rDNA D1/D2区序列种内相似性和种间差异性的快速检测方法,为临床酵母菌菌种鉴定方法的改进奠定基础。调查北京地区临床酵母菌的种群多样性,为国内酵母菌感染的流行病学研究提供新的基础数据。【方法】用5种常见临床酵母菌种的模式和权威菌株作为标准参考菌株,从北京四家综合性医院收集临床酵母菌260余株,PCR扩增其26S rDNA D1/D2区,对扩增产物进行单链构象多态性（Single-Strand Conformation Polymorphism,SSCP）分析和序列测定分析。【结果】常见病原酵母菌26S rDNA D1/D2区的SSCP图谱具有明显的种间差异性和种内相似性,可以通过该方法对菌株进行初步的菌种鉴定。D1/D2-SSCP和序列分析相结合,对260余株临床酵母菌进行了菌种鉴定,共鉴定有10个属20个种,优势属为念珠菌属(Candida),优势种及其所占比例分别是：C. albicans (57.7%), C. parapsilosis (10.0%), C. tropicalis (9.2%), C. glabrata (6.7%)和C. krusei (5.8%),并发现过去从未或很少报道致病的酵母菌种,愈来愈多地出现在临床分离菌株中。【结论】 26S rDNA D1/D2区的SSCP图谱分析为临床酵母菌株的快速鉴定提供了新的方法;北京地区酵母菌临床分离株呈种群多样性分布,C. albicans虽然仍占优势,但其它念珠菌种的比例已达42%。     

假丝酵母属疑难菌株大亚基rDNA D1/D2区域序列分析及其分类学意义*

对根据常规形态和生理生化性状难以确定分类学地位的8株假丝酵母菌,进行了以大亚基(26S) rDNA中D1/D2区域(约500~600 bp)的碱基序列分析为依据的分子分类学研究。根据系统树上所显示的供试菌株与假丝酵母属及相关子囊菌酵母已知种的亲缘关系,以及与最近缘种模式菌株D1/D2区域序列的相似性比较,确定了各个菌株的归属。本研究也显示了DNA序列分析在假丝酵母菌快速鉴定中的优越性。     

中国新疆地区酸马奶中乳酸菌生物多样性研究

研究了新疆地区传统发酵酸马奶中乳酸菌的生物多样性。从30份酸马奶中分离出152株乳杆菌,采用传统分类鉴定方法对其进行鉴定。结果表明:新疆地区酸马奶中的主要乳酸菌为Lactobacillus(L.)helveticus(占总分离株的51.3%),其次为L.acidophilus(18.4%)和L.caseisubsp.pseudoplantarum(8.6%),此外,L.gasseri、L.caseisubsp.casei、L.curvatus、L.sanfrancisco、L.coryniformissubsp.coryniformis、L.brevis、L.plantrum、L.homohiechill、L.fermentum、L.dellbrueckii subsp.bulgaricu、L.ruminis、L.crispatus、L.farciminis及L.hilgardii等乳杆菌在酸马奶中也有出现,但其数量较少(1~4株),还有8株乳杆菌按目前的鉴定方法无法准确判断其归属。L.helveticus和L.acidophilu存在于所有的酸马奶样品中,L.helveticus为优势菌。     

一株分离自酸梅酱的酵母菌的分离鉴定

目的:分离及鉴定来自于新疆塔城民间自制酸梅酱中的酵母菌。方法:用NL1/NL4引物对扩增酵母菌株的26S rDNAD1/D2区,测序结果进行序列分析,用Neighbour-joining(N-J)方法构建系统发育进化树,同时结合酵母的传统形态学鉴定对菌株进行鉴定。结果:26S rDNA D1/D2区序列分析表明菌株KKS与Metschnikowia aff.fructicola D3895相近,相似率为99.2%。在N-J法构建的系统发育进化树中,菌株KKS与Metschnikowia aff.fructicola聚类在同一分枝上。结论:从新疆塔城民间自制酸梅酱中分离得到一株酵母菌并将该菌株鉴定为Metschnikowia aff.fructicola。     

假丝酵母属疑难菌株大亚基rDNA D1/D2区域序列分析及其分类学意义

对根据常规形态和生理生化性状难以确定分类学地位的8株假丝酵母菌,进行了以大亚基(26S) rDNA中D1/D2区域(约500～600 bp)的碱基序列分析为依据的分子分类学研究.根据系统树上所显示的供试菌株与假丝酵母属及相关子囊菌酵母已知种的亲缘关系,以及与最近缘种模式菌株D1/D2区域序列的相似性比较,确定了各个菌株的归属.本研究也显示了DNA序列分析在假丝酵母菌快速鉴定中的优越性.     

水质净化酵母菌的分离筛选及鉴定

摘要:【目的】针对目前水产养殖专用优良菌种资源缺乏的现状,从养殖环境和养殖生物体中分离筛选具有水质净化功能的酵母菌,并对优良菌株进行鉴定。【方法】在低温和常温条件下从皮皮虾、南美白对虾肠道及养殖池底质活性污泥中分离具有水质净化功能的酵母菌,在模拟水体中对分离菌株的水质净化能力进行筛选,并对优良菌株采用形态、生理生化实验及5.8S rDNA ITS序列分析进行鉴定。【结果】从3种介质中共分离到酵母菌37株,其中常温分离16株,低温分离21株。水质净化实验结果表明,常温分离的16株酵母菌中有5株,低温分离的21株酵母菌中有6株对模拟水体中亚硝态氮和氨氮有显著的去除效果;其中低温分离的DN9和常温分离的CN6 48h能将10.64mg/L的亚硝态氮彻底转化,96h对630mg/L CODcr的去除率分别达52%和67%。DN9和CN6均产红色色素,经形态特征、生理生化特性及5.8S rDNA基因序列分析,鉴定菌株CN6为沼泽生红冬胞酵母(Rhodosporidium paludigenum),DN9为胶红酵母(Rhodotorula mucilaginosa)。【结论】红酵母DN9和CN6能有效去除养殖水体中的有机污染物和亚硝态氮,有望开发成 水产养殖水质净化高效微生态制剂。     

青海东部土壤中酵母物种多样性研究

从青海的互助、民和、门源等10个州县收集土样分离得到98株酵母菌, 利用26S rDNA D1/D2区域序列分析并结合形态学和生理生化特性对这些菌株进行了分类学研究, 探讨了青海东部土壤中酵母的物种多样性及其分布。共鉴定出10属13种(其中有两个疑似新种), 其中 Galactomyces geotrichum和Rhodotorula mucilaginosa为该地的优势种。     

高通量测序结合可培养技术分析 新疆刺腿食蚜蝇内生酵母菌的种群结构

对新疆石河子刺腿食蚜蝇Ischiodon scutellaris Fabricius内生可培养酵母菌和不可培养酵母菌的种类进行鉴定及多样性分析,明确刺腿食蚜蝇主要酵母种类及分布规律,为酵母菌资源的开发利用提供科学依据。通过Illumina (MiSeq)平台高通量测序和生物信息学分析,以及对刺腿食蚜蝇过滤液富集培养,选取其代表菌株进行糖发酵、碳源利用等生理生化检测及26S rDNA D1/D2区进行测序,对刺腿食蚜蝇中可培养酵母菌分离鉴定系统进化分析,得到刺腿食蚜蝇中酵母菌物种分布多样性信息及微生物群落结构组成。从刺腿食蚜蝇体内共分离获得14株可培养酵母菌株,属于Kodamaea,Saccharomyces,Wickerhamomyces 3个属;不可培养酵母菌含量≥1.49%,主要有16属,为Filobasidium(黑粉菌属),Udeniomyces,Candida(假丝酵母属),Metschnikowia(梅奇酵母属),Pichia(毕赤酵母属),Prototheca,Papiliotrema,Dipodascus,Kwoniella,Schizosaccharomyces(裂殖酵母),Acaromyces(阿卡酵母属),Cryptococcus(隐球酵母属),Cystofilobasidium,Tetrapisispora,Aureobasidium(金担子菌属),Zygosaccharomyces(接合酵母属)等。研究结果显示刺腿食蚜蝇内生酵母菌组成具有多样性,体内有着丰富的酵母菌种群,需要进一步开展昆虫体内的酵母菌种群的系统研究。     

Occurrence and dominance of yeast species in naturally fermented milk from the Tibetan Plateau of China

To determine which yeasts are present in the naturally fermented milks of China, 69 samples made by the nomads of Tibet were collected from the Tibetan Plateau in China. From these samples, 225 strains of yeast were isolated and identified using conventional microbiological analysis and gene sequencing analysis of the D1/D2 domain of the large subunit (26S) ribosomal DNA. The results showed that the total concentration of yeasts in these samples ranged from 5.01 to 8.97 log10 colony-forming units (CFU)/mL (6.91?± 1.02 log10 CFU/mL; mean?± SD). The number of cultivable yeasts was higher in the samples from Qinghai (7.55?± 0.75 log10 CFU/mL) than those from Tibet (6.21?± 0.79 log10 CFU/mL, P?< 0.05). Moreover, there were 15 phylotypes in these 69 samples. Among these phylotypes, Kluyveromyces marxianus (49.3%, frequency percentage), Saccharomyces cerevisiae (62.3%), and Pichia fermentans (46.4%) appeared frequently and can be considered the most common culturable species in naturally fermented milk products. Traditional fermented Mongolian cow milk featured a wide diversity of yeast species, including Issatchenkia orientalis, Kazachstania unisporus, Rhodotorula mucilaginosa, Candida pararugosa, Torulaspora delbrueckii, Geotrichum sp., Kazachstania unisporus, Geotrichum fragrans, Debaryomyces hansenii, Yarrowia lipolytica, Trichosporon gracile, and Pichia membranifaciens. This study provides new data on yeast composition in naturally fermented milk and shows the yeast biodiversity of fermented milk products from the Tibetan Plateau of China.     

Application of SSCP-PCR fingerprinting to profile the yeast community in raw milk Salers cheeses

Bacteria and yeasts are important sensory factors of raw-milk cheeses as they contribute to the sensory richness and diversity of these products. The diversity and succession of yeast populations in three traditional Registered Designation of Origin (R.D.O.) Salers cheeses have been determined by using phenotypic diagnoses and Single-Strand Conformation Polymorphism (SSCP) analysis. Isolates were identified by phenotypic tests and the sequencing of the D1-D2 domains of the 26S rRNA gene. Ninety-two percent of the isolates were identified as the same species in both tests. Yeast-specific primers were designed to amplify the V4 region of the 18S rRNA gene for SSCP analysis. The yeast species most frequently encountered in the three cheeses were Kluyveromyces lactis, Kluyveromyces marxianus, Saccharomyces cerevisiae, Candida zeylanoides and Debaryomyces hansenii. Detection of less common species, including Candida parapsilosis, Candida silvae, Candida intermedia, Candida rugosa, Saccharomyces unisporus, and Pichia guilliermondii was more efficient with the conventional method. SSCP analysis was accurate and could be used to rapidly assess the proportions and dynamics of the various species during cheese ripening. Each cheese was clearly distinguished by its own microbial community dynamics.     

U3 snoRNA genes with and without intron in the Kluyveromyces genus: yeasts can accommodate great variations of the U3 snoRNA 3'-terminal domain.

The U3 snoRNA coding sequences from the genomic DNAs of Kluyveromyces delphensis and four variants of the Kluyveromyces marxianus species were cloned by PCR amplification. Nucleotide sequence analysis of the amplification products revealed a unique U3 snoRNA gene sequence in all the strains studied, except for K. marxianus var. fragilis. The K. marxianus U3 genes were intronless, whereas an intron similar to those of the Saccharomyces cerevisiae U3 genes was found in K. delphensis. Hence, U3 genes with and without intron are found in yeasts of the Saccharomycetoideae subfamily. The secondary structure of the K. delphensis pre-U3 snoRNA and of the K. marxianus mature snoRNAs were studied experimentally. They revealed a strong conservation in yeasts of (1) the architecture of U3 snoRNA introns, (2) the 5'-terminal domain of the mature snoRNA, and (3) the protein-anchoring regions of the U3 snoRNA 3' domain. In contrast, stem-loop structures 2, 3, and 4 of the 3' domain showed great variations in size, sequence, and structure. Using a genetic test, we show that, in spite of these variations, the Kluyveromyces U3 snoRNAs are functional in S. cerevisiae. We also show that S. cerevisiae U3A snoRNAs lacking the stem-loop structure 2 or 4 are functional. Hence, U3 snoRNA function can accommodate great variations of the RNA 3'-terminal domain.     

Thermotolerant Kluyveromyces marxianus and Saccharomyces cerevisiae strains representing potentials for bioethanol production from Jerusalem artichoke by consolidated bioprocessing

Thermotolerant inulin-utilizing yeast strains are desirable for ethanol production from Jerusalem artichoke tubers by consolidated bioprocessing (CBP). To obtain such strains, 21 naturally occurring yeast strains isolated by using an enrichment method and 65 previously isolated Saccharomyces cerevisiae strains were investigated in inulin utilization, extracellular inulinase activity, and ethanol fermentation from inulin and Jerusalem artichoke tuber flour at 40?°C. The strains Kluyveromyces marxianus PT-1 (CGMCC AS2.4515) and S. cerevisiae JZ1C (CGMCC AS2.3878) presented the highest extracellular inulinase activity and ethanol yield in this study. The highest ethanol concentration in Jerusalem artichoke tuber flour fermentation (200?g?L(-1)) at 40?°C achieved by K. marxianus PT-1 and S. cerevisiae JZ1C was 73.6 and 65.2?g?L(-1), which corresponded to the theoretical ethanol yield of 90.0 and 79.7?%, respectively. In the range of 30 to 40?°C, temperature did not have a significant effect on ethanol production for both strains. This study displayed the distinctive superiority of K. marxianus PT-1 and S. cerevisiae JZ1C in the thermotolerance and utilization of inulin-type oligosaccharides reserved in Jerusalem artichoke tubers. It is proposed that both K. marxianus and S. cerevisiae have considerable potential in ethanol production from Jerusalem artichoke tubers by a high temperature CBP.     

The taxonomic position of Saccharomyces boulardii as evaluated by sequence analysis of the D1/D2 domain of 26S rDNA, the ITS1-5.8S rDNA-ITS2 region and the mitochondrial cytochrome-c oxidase II gene

A taxonomic study was carried out on eight strains of Saccharomyces boulardii. Morphological and physiological characteristics were consistent with those of Saccharomyces cerevisiae. Sequences of the D1/D2 domain of the 26S rDNA were identical for all strains examined and had a similarity value of 100% compared to sequences of the type strain of S. cerevisiae (CBS 1171T) and strain S288c. For all S. boulardii isolates was found the exact same ITS1-5.8S rDNA-ITS2 sequence, which displayed a close resemblance with the sequences published for S288c (99.9%), CBS 1171(T) (99.3%) and other S. cerevisiae strains. Sequence analysis of the mitochondrial cytochrome-c oxidase II gene (COX2) also resulted in identical sequences for the S. boulardii isolates and comparisons with available nucleotide sequences revealed close relatedness to strains of S. cerevisiae including S288c (99.5%) and CBS 1171(T) (96.6%). The electrophoretic karyotypes of the S. boulardii strains appeared quite uniform and although very typical of S. cerevisiae, they formed a cluster separate from strains of this species. The results of the present study strongly indicate a close relatedness of S. boulardii to S. cerevisiae and thereby support the recognition of S. boulardii as a member of S. cerevisiae and not as a separate species.     

Authentication and identification of Saccharomyces cerevisiae‘flor’ yeast races involved in sherry ageing

Yeasts involved in velum formation during biological ageing of sherry wine have to date been classified into four races of Saccharomyces cerevisiae (beticus, cheresiensis, montuliensis, rouxii) according to their abilities to ferment different sugars. It has been proposed that race succession during biological ageing is essential for the development of the organoleptical properties of sherry wines. In this work we studied the physiological characteristics, the molecular differentiation and the phylogenetic relationships of the four races employing type and reference strains from culture collections and natural environments. Using restriction analysis of the ribosomal region that includes the 5.8S rRNA gene and internal transcribed regions (5.8S-ITS) we were able to differentiate 'flor' and non-'flor' S. cerevisiae yeast strains. However, no correlation between fermentation profile, mitochondrial DNA restriction analysis or chromosomal profiles and these races was found. Moreover, sequences of the D1/D2 domain of the 26S rRNA gene and the 5.8S-ITS region from these strains were analysed and no genetic differences were noted suggesting that 'flor' yeast cannot be grouped into four different races and the four races are identified as S. cerevisiae. Since the yeasts isolated from velum in sherry wine present a unique 5.8S rRNA pattern different from the rest of the Saccharomyces cerevisiae strains we propose that they should be included as a single race or variety inside the S. cerevisiae taxon.     

西藏曲拉和云南乳饼中酵母菌的鉴定及其生物多样性

【目的】探讨西藏曲拉和云南乳饼中酵母菌的生物多样性及其分布特征,为我国传统乳制品中酵母菌资源的利用提供基础数据。【方法】从西藏和云南分别采集的5份曲拉样品和8份乳饼样品中分离出41株酵母菌,利用26SrDNAD1/D2区域序列分析对这些菌株进行了分类鉴定。【结果】曲拉和乳饼样品中酵母菌的总数分别在106-107cfu/g和102-106cfu/g之间,曲拉样品的酵母菌平均数比乳饼样品中的高34倍。共鉴定出10属12种,其中西藏曲拉的优势菌株为发酵毕赤氏酵母(Pichia fermentans)和酿酒酵母(Saccharomyces cerevisiae);云南乳饼的优势菌株为类筒假丝酵母(Candida zeylanoides)和喜仙人掌毕赤氏酵母(Pichia cactophila)。毕赤氏酵母属(Pichia)是曲拉和乳饼的共同优势属。【结论】西藏曲拉和云南乳饼中的酵母菌都具有丰富的生物多样性,但其差异性很大。     

Evaluation of yeast diversity during wine fermentations with direct inoculation and pied de cuve method at an industrial scale

The diversity and composition of yeast populations may greatly impact wine quality. This study investigated the yeast microbiota in two different types of wine fermentations: direct inoculation of a commercial starter versus pied de cuve method at an industrial scale. The pied de cuve fermentation entailed growth of the commercial inoculum used in the direct inoculation fermentation for further inoculation of additional fermentations. Yeast isolates were collected from different stages of wine fermentation and identified to the species level using Wallersterin Laboratory nutrient (WLN) agar followed by analysis of the 26S rDNA D1/D2 domain. Genetic characteristics of the Saccharomyces cerevisiae strains were assessed by a rapid PCR-based method, relying on the amplification of interdelta sequences. A total of 412 yeast colonies were obtained from all fermentations and eight different WL morphotypes were observed. Non-Saccharomyces yeast mainly appeared in the grape must and at the early stages of wine fermentation. S. cerevisiae was the dominant yeast species using both fermentation techniques. Seven distinguishing interdelta sequence patterns were found among S. cerevisiae strains, and the inoculated commercial starter, AWRI 796, dominated all stages in both direct inoculation and pied de cuve fermentations. This study revealed that S. cerevisiae was the dominant species and an inoculated starter could dominate fermentations with the pied de cuve method under controlled conditions.