6种区分乳酸乳球菌乳酸亚种和乳酸乳球菌乳脂亚种的分子生物学方法比较

【目的】比较并评价6种分子生物学技术对乳酸乳球菌乳酸亚种(Lactococcus lactis subsp.lactis)和乳酸乳球菌乳脂亚种(Lactococcus lactis subsp.cremoris)的区分效果。【方法】采用16S rRNA基因序列分析技术,16S-23S rRNA间区序列多态性分析技术,变性梯度凝胶电泳技术(DGGE),随机扩增多态性分析技术(RAPD),重复基因外回文序列分析技术(rep-PCR)和限制性酶切片段多态性分析技术(RFLP)对4株Lactococcus lactis subsp.lactis和Lactococcus lactis subsp.cremoris参考菌株进行了区分,并对这6种方法的区分效果进行了比较评价。【结果】16S rRNA基因序列分析技术,16S-23S rRNA间区序列多态性分析技术无法区分Lactococcus lactis subsp.lactis和Lactococcus lactis subsp.cremoris,而其余4种技术可以实现区分。【结论】变性梯度凝胶电泳(DGGE),随机扩增多态性分析技术(RAPD)耗时短,操作简单,试验结果准确稳定,更适合Lactococcus lactis subsp.lactis和Lactococcus lactis subsp.cremoris的快速准确区分。     

干酪乳杆菌的近缘种及亚种部分看家基因的系统发育分析

【背景】16S rRNA基因序列分析已广泛应用于细菌的分类鉴定,但是存在一定局限性,而使用看家基因作为分子标记在近缘种及亚种间的系统发育分析中具有其独特的优势。【目的】研究16S rRNA、uvr C (核酸外切酶ABC,C亚基)和mur E (UDP-N-乙酰胞壁酰三肽合酶)基因序列对干酪乳杆菌的近缘种及亚种的区分能力。【方法】采用分离自传统发酵乳中的6株干酪乳杆菌为研究对象,选取uvr C和mur E基因片段,通过PCR扩增、测序,结合已公布的干酪乳杆菌的近缘种或亚种的相应序列计算遗传距离、构建系统发育树,并与16S rRNA基因序列分析技术进行比较。【结果】研究发现Lactobacilluscasei及相近种间的uvr C、mur E和联合基因(uvr C-mur E)构建的系统发育树拓扑结构与16S rRNA基因结果基本一致,区别在于相似性的不同,其分别为79.00%-99.16%、89.08%-99.20%、76.56%-99.69%和99.58%-100%。基于16S rRNA基因不能区分干酪乳杆菌的近缘种及亚种,而看家基因uvr C和mur E基因序列能够很好地区分干酪乳杆菌的近缘种及亚种,并且将uvr C和mur E基因串联使用后,试验菌株与参考菌株的分类关系更加清晰。【结论】联合基因(uvr C-mur E)可作为16SrRNA基因的辅助工具用于干酪乳杆菌的近缘种及亚种的快速准确鉴定。     

一株具有谷胱甘肽合成能力的乳酸乳球菌的分离与初步研究

基于gshB基因同源性分析设计引物,从采集的菜园地土壤中分离到1株具有谷胱甘肽(GSH)合成能力的乳酸乳球菌菌株CCSYU10100。测定了该菌株的16S rDNA序列并根据16S rDNA序列构建了系统发育树,结果显示该菌株与乳酸乳球菌乳脂亚种在进化关系上的地位最近。电镜分析表明,菌株CCSYU10100与乳酸乳球菌的形态特征基本一致。因此认为菌株CCSYU10100属于乳酸乳球菌乳脂亚种,命名为乳酸乳球菌乳脂亚种CCSYU10100。HPLC法鉴定出该菌株胞内除GSH外,还存在半胱氨酸-甘氨酸。乳酸乳球菌CCSYU10100的部分gshB基因与假单胞菌属的gshB基因高度同源,这是gshB基因在乳酸乳球菌中、甚至是革兰氏阳性菌中的首次发现。     

多项分类方法鉴定西藏地区藏灵菇中的乳酸球菌

【目的】采用多项分类法对16株分离自藏灵菇中的乳酸球菌进行准确鉴定。【方法】首先应用传统的生理生化试验,之后采用16S-23S rRNA间区序列多态性分析和变性梯度凝胶电泳(DGGE)进行了鉴定,最后,通过16S rRNA基因序列分析进行验证。【结果】将16株菌株初步鉴定为3个菌群:片球菌群、乳球菌群和肠球菌群,进一步鉴定为14株耐久肠球菌,1株乳酸片球菌,1株乳酸乳球菌乳酸亚种,16S rRNA基因序列分析验证的结果与前3种试验方法的结果相一致。【结论】试验结果表明传统的生理生化鉴定和16S-23S rRNA间区序列多态性分析和变性梯度凝胶电泳(DGGE)相结合的多项分类方法有利于乳酸球菌种间的准确鉴定。     

粪肠、屎肠球菌及相近种部分持家基因的系统发育分析

【目的】利用16S rRNA、clpX和recA基因分子标记研究Enterococcus faecalis、Enterococcus faecium及相近种间的种系发育关系,并比较这些基因序列对E.faecalis、E.faecium及相近种的区分能力。【方法】以分离自传统乳制品中的9株E.faecium和1株E.durans分离株为研究对象,以clpX和recA基因片段为标记,通过PCR扩增、测序,结合已公布的近缘种相应序列构建系统发育树并与16S rRNA基因进行比较。【结果】在基于clpX和recA基因的进化树中,10株试验菌株与E.faecalis始终处于同一分支。与该物种这两个基因的平均相似性为99.6%和98.6%,与另一分支的Faecium-group(E.durans和E.faecium)的平均相似性仅为61.5%和33.5%。相近种E.durans和E.hirae间这两个基因的差异性为20.3%和39.0%;在基于16S rRNA基因的进化树中,试验菌株与Faecium-group(E.lactis、E.faecium、E.durans、E.hirae)处于同一分支。与这些成员间该基因的相似性大于99.6%,与E.faecalis基因的平均相似性可达98.4%。相近种间该基因相似性无明显差异。【结论】按照10株试验菌株clpX和recA基因的分析结果可将由传统生理生化和16S rRNA基因序列鉴定的9株E.faecium和1株E.durans归类为E.faecalis,clpX和recA基因可用于部分相近种的分类鉴定。     

乳酸乳球菌KLDS4.0325的糖代谢过程及乳酸生物合成途径的比较

【目的】为了探究乳酸乳球菌乳酸亚种KLDS4.0325的碳水化合物利用能力和乳酸形成潜力。【方法】本文对该菌株进行了全基因组鸟枪法测序,并应用生物信息学方法对该菌株细胞外糖的转运、代谢及产酸途径涉及的一系列基因与其它9株参考菌株进行了比较分析。【结果】与参考菌株相比,该菌株基因组中具有较多涉及整个途径糖代谢途径的关键酶编码基因。【结论】该菌株在基因水平上表现出能够利用多种糖类物质来产乳酸的优良性状,是一株具有高产L-乳酸工业潜能的乳酸菌。     

牛凝乳酶原基因在乳酸乳球菌中的表达

【目的】利用乳酸乳球菌nisin诱导基因表达系统(the NIsin Controlled gene Expression system,NICE)表达牛凝乳酶原。【方法】从克隆载体pS19-PPC中获得牛凝乳酶原基因,将该基因与表达载体pNZ8148连接并电转化乳酸乳球菌NZ9000,转化子经酶切、PCR和测序鉴定后,用nisin进行诱导表达,表达产物利用SDS-PAGE和Western blot鉴定,表达产物纯化后检测凝乳活性。【结果】重组牛凝乳酶原与天然牛凝乳酶原比较,其分子量大小、免疫性质、生物活性和抑制剂敏感性没有发现显著差异,其凝乳活性可达2×103IMCU/mL。【结论】在乳酸乳球菌中表达了具有凝乳活性的牛凝乳酶原,同时乳酸乳球菌作为发酵剂和凝乳酶产生菌双重角色的实现,为奶酪加工提供了新思路和新方法。     

一个含有乳链菌肽抗性基因的乳酸乳球菌质粒pTS50的鉴定

在添加乳链菌肽、乳糖及溴甲酚紫的M1 7选择培养基上 ,从 1 97个新鲜牛奶样品中筛选到 3株乳链菌肽抗性菌株 ,PCR扩增证实它们都含有乳链菌肽抗性基因。菌种生理生化特性鉴定及特异性 1 6SrDNAPCR扩增产物的序列测定结果表明这 3株菌都属于乳酸乳球菌乳酸亚种。质粒转化实验发现乳酸乳球菌乳酸亚种TS 1 640中的乳链菌肽抗性基因位于一个约47kb的大质粒pTS50上。BamHI、EcoRI、HindⅢ、NcoI、PstⅠ酶切分析和Southern杂交 ,进一步将乳链菌肽抗性基因定位于pTS50的一个约 1 9kbEcoRI酶切片段中     

一株抗G- 菌和酵母菌的乳酸乳球菌的分离鉴定与抗菌活性

以G+ 菌金黄色葡萄球菌(Staphylococcus aureus)作为指示菌, 通过抑菌筛选法从生牛奶中初筛得到具有抑菌活性的14株细菌菌株, 然后通过个体形态与培养特征观测、部分生理生化反应、G + C mol%测定、16S rDNA序列比对分析、PCR扩增特异性N-乙酰胞壁酸水解酶基因和序列对比分析等鉴定, 确定其中的一株具有较高抑菌活性的分离株为乳酸乳球菌乳酸亚种(Lactococcus lactis subsp. lactis)菌株, 命名为MB191。对多种G+ 细菌、G- 细菌、酵母菌和丝状真菌的对峙培养抗性测定结果表明, MB191除对供试G+ 细菌具有较高的抑菌活性以外, 还对丁香假单胞菌(Pseudomonas syringae)、荧光假单胞菌(P. fluorescens)等G- 细菌和汉逊德巴利酵母(Debaryomyces hansenii)等具有明显的抑菌活性。乳酸乳球菌的这一特性目前尚未见文献报道。     

表达空肠弯曲菌CfrA蛋白重组乳酸乳球菌的构建及其免疫效果北大核心CSCD

【目的】本试验将空肠弯曲菌肠菌素受体蛋白CfrA编码基因导入食品级乳酸乳球菌表达系统,然后将重组乳酸乳球菌口服免疫鸡,降低空肠弯曲菌在鸡肠道中的定殖。【方法】利用PCR分别扩增空肠弯曲菌cfrA全基因及其N端片段,插入食品级表达载体pNZ8149多克隆位点并转化乳酸乳球菌NZ3900,通过Western blot鉴定重组菌株CfrA蛋白表达情况,同时通过筛选nisin浓度、温度、时间等诱导条件优化重组蛋白表达水平;进而将重组乳酸乳球菌经口服免疫SPF鸡,免疫后分别测定乳酸乳球菌自鸡体内的排出情况、以及诱导CfrA血清抗体和粘膜抗体水平,最后将空肠弯曲菌口服攻毒免疫后的鸡,通过测定鸡泄殖腔棉拭子中空肠弯曲菌的数目来判定口服免疫效果。【结果】Western blot检测显示CfrA全基因及其N端片段均可在重组乳酸乳球菌胞内可溶性表达,不分泌,筛选的最佳诱导表达条件为nisin浓度25 ng/mL、温度37°C、时间1 h。口服乳酸乳球菌10 d内自鸡体完全排空;鸡口服免疫后可产生CfrA蛋白特异性的血清IgG和肠粘膜sIgA抗体;重组乳酸乳球菌口服免疫后空肠弯曲菌在鸡体内的增殖速度显著低于对照组。【结论】成功构建了重组CfrA蛋白的食品级乳酸乳球菌诱导表达系统;表达CfrA蛋白的重组乳酸乳球菌口服免疫鸡对空肠弯曲菌在鸡肠道的定殖具有一定的抑制作用,为研制重组乳酸菌口服家禽免疫制剂防治空肠弯曲菌奠定了基础。     

Phylogenetic analysis of Lactococcus lactis subspecies based on decoding the sequence of the pepT tripeptidase gene, the pepV dipeptidase gene and 16S rRNA

Tripeptidase (PepT) and dipeptidase (PepV), the enzymes located in the final stage of the intracellular proteolytic system, were demonstrated to be distributed widely in lactic acid bacteria, especially in lactococci. Both the tripeptidase genes (pepT) and dipeptidase genes (pepV) of 15 lactococcal strains consisting of the type and domestic strains were cloned and sequenced using normal and TAIL PCR methods. Amino acid sequences of these enzymes were highly conserved among strains. Evolutionary distance trees based on the sequence of 1239 nucleotides of pepT and 1416 nucleotide of pepV showed a similar cluster as that obtained from the 1499 fragment of the 16S rRNA. Based on this profile, the species Lactococcus lactis is reasonably divided into three subspecies groups, subsp. lactis, cremoris, and hordniae, as in the current classification. Figure of trees from pepT and pepV were essentially identical to each other and slightly more intricate than that from 16S rRNA. The K nuc values obtained from pepT and pepV genes were approximately ten times as high as that from 16S rRNA. Considering these results, phylogenetic analysis based on pepT and pepV genes may aid in a more precise index of classification of L. lactis subspecies. PepT and PepV seem to have evolved in similar directions in lactococci.     

Cloning of a chromosomal fragment from Lactococcus lactis subsp. lactis partially complementing Escherichia coli recA functions

A recA-like gene was isolated from a gene library of Lactococcus lactis subsp. lactis by intergeneric complementation of an E. coli recA mutant. A plasmid was obtained which fully complemented the RecA response to DNA damaging agents and UV inducibility of prophage, but not P1 plating efficiency in an E. coli recA mutant. The cloned DNA fragment also partially complemented the rec mutation in Lc. lactis MMS36. Hybridization studies showed that there was no detectable sequence homology between the recA gene of E. coli and Lc. lactis subsp. lactis chromosomal DNA.     

Comparative phenotypic and molecular genetic profiling of wild Lactococcus lactis subsp. lactis strains of the L. lactis subsp. lactis and L. lactis subsp. cremoris genotypes, isolated from starter-free cheeses made of raw milk

Twenty Lactococcus lactis strains with an L. lactis subsp. lactis phenotype isolated from five traditional cheeses made of raw milk with no added starters belonging to the L. lactis subsp. lactis and L. lactis subsp. cremoris genotypes (lactis and cremoris genotypes, respectively; 10 strains each) were subjected to a series of phenotypic and genetic typing methods, with the aims of determining their phylogenetic relationships and suitability as starters. Pulsed-field gel electrophoresis (PFGE) analysis of intact genomes digested with SalI and SmaI proved that all strains were different except for three isolates of the cremoris genotype, which showed identical PFGE profiles. Multilocus sequence typing (MLST) analysis using internal sequences of seven loci (namely, atpA, rpoA, pheS, pepN, bcaT, pepX, and 16S rRNA gene) revealed considerable intergenotype nucleotide polymorphism, although deduced amino acid changes were scarce. Analysis of the MLST data for the present strains and others from other dairy and nondairy sources showed that all of them clustered into the cremoris or lactis genotype group, by using both independent and combined gene sequences. These two groups of strains also showed distinctive carbohydrate fermentation and enzyme activity profiles, with the strains in the cremoris group showing broader profiles. However, the profiles of resistance/susceptibility to 16 antibiotics were very similar, showing no atypical resistance, except for tetracycline resistance in three identical cremoris genotype isolates. The numbers and concentrations of volatile compounds produced in milk by the strains belonging to these two groups were clearly different, with the cremoris genotype strains producing higher concentrations of more branched-chain, derived compounds. Together, the present results support the idea that the lactis and cremoris genotypes of phenotypic Lactococcus lactis subsp. lactis actually represent true subspecies. Some strains of the two subspecies in this study appear to be good starter candidates.     

Divergence of Genomic Sequences between Lactococcus lactis subsp. lactis and Lactococcus lactis subsp. cremoris

Relatedness between Lactococcus lactis subsp. cremoris and L. lactis subsp. lactis was assessed by Southern hybridization analysis, with cloned chromosomal genes as probes. The results indicate that strains of the two subspecies form two distinct groups and that the DNA sequence divergence between L. lactis subsp. lactis and L. lactis subsp. cremoris is estimated to be between 20 and 30%. The previously used phenotypic criteria do not fully discriminate between the groups; therefore, we propose a new classification which is based on DNA homology. In agreement with this revised classification, the L. lactis subsp. lactis and L. lactis subsp. cremoris strains from our collection have distinct phage sensitivities.     

Diversity analysis of dairy and nondairy Lactococcus lactis isolates, using a novel multilocus sequence analysis scheme and (GTG)5-PCR fingerprinting

The diversity of a collection of 102 lactococcus isolates including 91 Lactococcus lactis isolates of dairy and nondairy origin was explored using partial small subunit rRNA gene sequence analysis and limited phenotypic analyses. A subset of 89 strains of L. lactis subsp. cremoris and L. lactis subsp. lactis isolates was further analyzed by (GTG)(5)-PCR fingerprinting and a novel multilocus sequence analysis (MLSA) scheme. Two major genomic lineages within L. lactis were found. The L. lactis subsp. cremoris type-strain-like genotype lineage included both L. lactis subsp. cremoris and L. lactis subsp. lactis isolates. The other major lineage, with a L. lactis subsp. lactis type-strain-like genotype, comprised L. lactis subsp. lactis isolates only. A novel third genomic lineage represented two L. lactis subsp. lactis isolates of nondairy origin. The genomic lineages deviate from the subspecific classification of L. lactis that is based on a few phenotypic traits only. MLSA of six partial genes (atpA, encoding ATP synthase alpha subunit; pheS, encoding phenylalanine tRNA synthetase; rpoA, encoding RNA polymerase alpha chain; bcaT, encoding branched chain amino acid aminotransferase; pepN, encoding aminopeptidase N; and pepX, encoding X-prolyl dipeptidyl peptidase) revealed 363 polymorphic sites (total length, 1,970 bases) among 89 L. lactis subsp. cremoris and L. lactis subsp. lactis isolates with unique sequence types for most isolates. This allowed high-resolution cluster analysis in which dairy isolates form subclusters of limited diversity within the genomic lineages. The pheS DNA sequence analysis yielded two genetic groups dissimilar to the other genotyping analysis-based lineages, indicating a disparate acquisition route for this gene.     

The ldh phylogeny for environmental isolates of Lactococcus lactis is consistent with rRNA genotypes but not with phenotypes.

Lactate dehydrogenase (ldh) gene sequences, levels of 16S rRNA group-specific probe binding, and phenotypic characteristics were compared for 45 environmental isolates and four commercial starter strains of Lactococcus lactis to identify evolutionary groups best suited to cheddar cheese manufacture, ldh sequences from the environmental isolates showed high similarity to those from two groups of L. lactis used for industrial fermentations, L. lactis subsp. cremoris and subsp. lactis. Within each phylogenetically defined subspecies, ldh sequence similarities were greater than 99.1%. Strains with phenotypic traits formerly diagnostic for both subspecies were found in each ldh similarity group, but only strains belonging to L. lactis subsp. cremoris by both the newer, genetic and the older, superseded phenotypic criteria were judged potentially suitable for the commercial production of cheddar cheese. Identical evolutionary relationships were inferred from ldh sequences and from binding of subspecies-specific, 16S rRNA-directed oligonucleotide probes. However, groups defined according to these chromosomal traits bore no relationship to patterns of arginine deamination, carbon substrate utilization, or bacteriophage sensitivity, which may be encoded by cryptic genes or sexually transmissible genetic elements. Fourteen new L. lactis subsp. cremoris isolates were identified as suitable candidates for cheddar cheese manufacture, and 10 of these were completely resistant to three different batteries of commercial bacteriophages known to reduce starter activity.     

Novel multiplex polymerase chain reaction primer set for identification of Lactococcus species

Aims: The gram‐positive bacterial genus Lactococcus has been taxonomically classified into seven species (Lactococcus lactis, Lactococcus garvieae, Lactococcus piscium, Lactococcus plantarum, Lactococcus raffinolactis, Lactococcus chungangensis and Lactococcus fujiensis). This study aimed to develop a novel multiplex polymerase chain reaction (PCR) primer set for the identification of the seven lactococcal species, as well as to differentiate the two industrially important dairy subspecies, L. lactis subsp. lactis and L. lactis subsp. cremoris. Methods and Results: A multiplex PCR primer set was designed based on the nucleotide sequences of the 16S rRNA gene of the seven lactococcal species. The specificity of the established one‐step multiplex PCR scheme was verified using more than 200 bacterial strains, in which a complete sequence match was confirmed by partial sequencing of their 16S rRNA gene. Conclusions: The one‐step multiplex PCR enables the identification and speciation of bacterial strains belonging to the genus Lactococcus and the differentiation of strains of L. lactis subsp. lactis and L. lactis subsp. cremoris. Significance and Impact of the Study: This work provides an efficient method for identification of lactococcal strains of industrial importance.