PCR快速鉴定鼠疫耶尔森氏菌

建立一种简便、快速、特异的PCR检测方法,用于鼠疫耶尔森氏菌的快速鉴定。针对鼠疫耶尔森氏菌特异的一段染色体序列3a设计引物,扩增-276bp片段的鼠疫标识序列。应用该PCR反应体系,对我国17个生态型及1个待定的生态型共计275株鼠疫耶尔森氏菌及48株相关菌株的PCR扩增结果表明,实验菌株均扩增出预期的276bp片段产物带,48株相关菌株均阴性,其检测灵敏度为100pg DNA。说明该方法用于鼠疫耶尔森氏菌的检测鉴定简便、快捷,具有很高的特异性和敏感性。     

环介导等温扩增技术检测鼠疫耶尔森菌的敏感性和特异性研究

为观察环介导等温扩增(loop-mediated isothermal amplification,LAMP)技术能否适用于我国不同疫源地鼠疫耶尔森菌所有基因组型的检测,本研究建立了一种基于3a靶序列设计特异性引物快速检测鼠疫耶尔森菌的LAMP方法。选择分离自我国11个鼠疫自然疫源地的65株野生代表性鼠疫耶尔森菌株,同时以与其近源的假结核耶尔森菌、小肠结肠炎耶尔森菌及非近源的大肠埃希菌为对照菌株,观察其敏感性和特异性。结果显示,该LAMP方法与其他3种鼠疫耶尔森菌常规检测方法的结果一致。65株鼠疫耶尔森菌检测均为阳性,最低检出浓度为20个菌/μL;假结核耶尔森菌、小肠结肠炎耶尔森菌及大肠埃希菌标准菌株反应均为阴性。结果提示,本研究建立的LAMP技术对检测我国各疫源地鼠疫耶尔森菌具有高度特异性,且快速简便,无需特殊仪器,可肉眼判读结果,适用于野外现场鼠疫监测中的快速检测,在偏远地区疫情防控中具有实用价值。     

9株耶尔森氏菌的裂解气液色谱分析

应用国产103型气相色谱仪,配合丝式居里点裂解器,分析了9株耶尔森氏菌。比较其指纹图,认为可以区别Y.intermedia ,Y.frederiksenii及Y.enterocolitca三种不同的耶尔森氏菌。另外,有毒株与无毒株之间,以及不同血清型的菌株之间,也可从指纹图中反映出来。     

应用肽核酸探针检测鼠疫耶尔森氏菌

目的:利用特异的肽核酸(PNA)探针、链霉亲和素包被的磁珠和cy5纳米颗粒,通过荧光扫描技术,建立一种特异、快速、准确地检测鼠疫耶尔森氏菌的方法。方法:针对鼠疫耶尔森氏菌pMT1质粒上的caf1基因设计并合成一对特异PNA探针,经生物素标记后,分别与链霉亲和素包被的磁珠和cy5纳米颗粒结合;将探针与待测鼠疫耶尔森氏菌的基因组DNA杂交后,利用荧光扫描技术进行检测。探讨了多个实验因素对测定的影响,并进行了特异性和灵敏度检测。结果:建立并优化了利用PNA探针检测鼠疫耶尔森氏菌的方法,得到较好的线性关系;检测的灵敏度为0.9μg/mL(待测DNA)。结论:PNA探针与靶基因的结合不易受杂交液离子强度的影响,结合后具有较高的稳定性。本研究建立的分析方法能够灵敏、特异、稳定地对鼠疫耶尔森氏菌进行定量检测,为鼠疫的监控、诊断提供了有力手段。     

三种致病性耶尔森氏菌噬菌体的分离鉴定研究进展

3种致病性耶尔森氏菌包括鼠疫耶尔森氏菌、假结核耶尔森氏菌和小肠结肠炎耶尔森氏菌,其噬菌体可用于耶尔森氏菌的诊断、防治和生态进化学研究。本文重点分析3种致病性耶尔森氏菌噬菌体的分离鉴定史。将3种耶尔森氏菌噬菌体基因组进行比较分析,并对各菌的噬菌体受体进行总结,为研究及利用3种耶尔森氏菌噬菌体提供思路。     

鼠疫耶尔森氏菌基因表达的环境调节

鼠疫耶尔森氏菌是烈性传染病鼠疫的病原菌,该菌在媒介(跳蚤)和宿主(哺乳动物)之间的循环过程中,基因表达适应环境谱的变化。本介绍鼠疫耶尔森氏菌适应环境信号如不同温度、离子浓度、pH等条件下的基因表达调控研究现状。     

ARDRA联合RAPD对不动杆菌基因型鉴定的研究

收集多重耐药的不动杆菌10株,以标准参照株作对照,采用扩增核糖体DNA限制性酶切(ARDRA)DNA指纹技术联合随机扩增多态性DNA(RAPD)技术对其基因亚型进行分析;以非加权组间平均法(UPG-MA)进行聚类分析。该法可以有效地鉴定不动杆菌基因亚型;并从10株不动杆菌中鉴定出1株琼氏不动杆菌及9株鲍曼不动杆菌。ARDRA联合RAPD基因指纹分型技术有良好的互补性,可准确鉴定不动杆菌基因型。     

鼠疫菌H-NS蛋白的表达与纯化及其DNA结合活性

摘要：【目的】利用大肠杆菌BL21λDE3的表达系统,表达出有活性的鼠疫耶尔森氏菌（以下简称鼠疫菌）调控子蛋白H-NS,为进一步研究H-NS的转录调控奠定基础。【方法】 PCR扩增鼠疫菌201株hns基因的编码区,将其直接克隆入pET28a质粒中,再将pET28a-hns重组质粒转入大肠杆菌BL21λDE3菌株中,所得菌株经IPTG诱导后能表达出鼠疫菌His-H-NS蛋白;通过体外的凝胶迁移实验（EMSA）和DNaseⅠ足迹实验对His-H-NS蛋白与DNA的结合活性进行分析。【结果】成功表达出有活性的鼠疫菌His-H-NS蛋白,该蛋白对鼠疫菌pH6抗原基因（psaA、psaE）及rovA基因均有结合活性。【结论】鼠疫菌His-H-NS具有DNA结合活性,说明H-NS能调控鼠疫菌基因的转录。     

副溶血性弧菌重复序列-PCR分型研究

利用基因外重复回文序列-PCR(REP-PCR)和肠细菌基因间共有重复序列-PCR(ERIC-PCR)技术, 对副溶血性弧菌进行了分子分型研究和亲缘关系的探讨, 并使用Hunter和Gaston方法计算分辨力指数。结果显示40株副溶血性弧菌分离株均可扩增产生可重复的DNA指纹图谱, 并且不同菌株基因组DNA的扩增条带具有多态性。根据SPSS10.0软件得出的树状图结果, REP-PCR可以把40株菌分为21个型, 分辨力指数可达到0.953, 优势菌型为G1型; ERIC-PCR可将40株菌分成4个型, 分辨力指数为0.5。研究显示重复序列-PCR方法可以用于该菌分型分析, REP-PCR具有较好的分型能力。在两种PCR的DNA指纹图谱中, 血清型O1群与O3群主条带均非常相似, 表明它们之间亲缘关系密切。     

微量法鼠疫菌质粒DNA抽提的优化

旨在分析微量法抽提鼠疫菌质粒DNA的效果,探讨其在鼠疫菌分子生物学实验研究中的应用价值.采用微量法分别提取鼠疫菌EV76株,假结核耶尔森菌PstII株及大肠杆菌V517株质粒DNA,琼脂糖凝胶电泳对质粒DNA抽提结果进行分析.结果显示,微量法能在较短时间内获取开环较少的闭合环状鼠疫菌质粒DNA,经琼脂糖凝胶电泳图示其电泳条带清晰、亮度均一.微量法鼠疫菌质粒DNA抽提效率和纯度较好,抽提结果稳定,重复性良好.经微量法抽提的质粒DNA符合多数鼠疫菌分子生物学试验的要求,可广泛应用于鼠疫菌分子生物学试验研究中.     

Homology with a repeated Yersinia pestis DNA sequence IS100 correlates with pesticin sensitivity in Yersinia pseudotuberculosis.

We have identified IS100 sequences in a specific subset of Yersinia pseudotuberculosis isolates that were also sensitive to the Y. pestis-produced bacteriocin, pesticin. In contrast, Y. pseudotuberculosis strains which did not contain IS100 sequences were not sensitive to pesticin. We propose that IS100 serves as a molecular marker that identifies a subset of Y. pseudotuberculosis isolates that have a particularly close evolutionary and/or ecological relationship with Y. pestis.     

Determination of genetic bases of auxotrophy in Yersinia pestis ssp. caucasica strains

Based on the results of computer analysis of nucleotide sequences in strains Yersinia pestis and Y. pseudotuberculosis recorded in the files of NCBI GenBank database, differences between genes argA, aroG, aroF, thiH, and thiG of strain Pestoides F (subspecies caucasica) were found, compared to other strains of plaque agent and pseudotuberculosis microbe. Using PCR with calculated primers and the method of sequence analysis, the structure of variable regions of these genes was studied in 96 natural Y. pestis and Y. pseudotuberculosis strains. It was shown that all examined strains of subspecies caucasica, unlike strains of plague-causing agent of other subspecies and pseudotubercolosis microbe, had identical mutations in genes argA (integration of the insertion sequence IS100), aroG (insertion of ten nucleotides), aroF (inserion of IS100), thiH (insertion of nucleotide T), and thiG (deletion of 13 nucleotides). These mutations are the reason for the absence in strains belonging to this subspecies of the ability to synthesize arginine, phenylalanine, tyrosine, and vitamin B1 (thiamine), and cause their auxotrophy for these growth factors.     

Genetic Variability of Yersinia pestis Isolates as Predicted by PCR-Based IS100 Genotyping and Analysis of Structural Genes Encoding Glycerol-3-Phosphate Dehydrogenase (glpD)

A PCR-based genotyping system that detects divergence of IS100 locations within the Yersinia pestis genome was used to characterize a large collection of isolates of different biovars and geographical origins. Using sequences derived from the glycerol-negative biovar orientalis strain CO92, a set of 27 locus-specific primers was designed to amplify fragments between the end of IS100 and its neighboring gene. Geographically diverse members of the orientalis biovar formed a homogeneous group with identical genotype with the exception of strains isolated in Indochina. In contrast, strains belonging to the glycerol-positive biovar antiqua showed a variety of fingerprinting profiles. Moreover, strains of the biovar medievalis (also glycerol positive) clustered together with the antiqua isolates originated from Southeast Asia, suggesting their close phylogenetic relationships. Interestingly, a Manchurian biovar antiqua strain Nicholisk 51 displayed a genotyping pattern typical of biovar orientalis isolates. Analysis of the glycerol pathway in Y. pestis suggested that a 93-bp deletion within the glpD gene encoding aerobic glycerol-3-phosphate dehydrogenase might account for the glycerol-negative phenotype of the orientalis biovar. The glpD gene of strain Nicholisk 51 did not possess this deletion, although it contained two nucleotide substitutions characteristic of the glpD version found exclusively in biovar orientalis strains. To account for this close relationship between biovar orientalis strains and the antiqua Nicholisk 51 isolate, we postulate that the latter represents a variant of this biovar with restored ability to ferment glycerol. The fact that such a genetic lesion might be repaired as part of the natural evolutionary process suggests the existence of genetic exchange between different Yersinia strains in nature. The relevance of this observation on the emergence of epidemic Y. pestis strains is discussed.     

The role of IS-elements of Yersinia pestis (Lehmann, Neumann) in the emergence of calcium-independent mutations

Calcium independent mutants of two Yersinia pestis strains were studied. Insertions of IS100 element at three different sites of plasmid pCad within calcium dependence region were detected in Y. pestis EV, as well as two extensive deletions covering the whole region. It was shown that IS100 carries no HindIII sites. Novel IS element of Y. pestis designated IS101 was discovered in strain 358, in addition to IS100. It is distinguished by a slightly smaller size, HindIII site presence and high specificity of integration.     

Genetic variations in the pgm locus among natural isolates of Yersinia pestis

A PCR-based screening method was used to study the genetic variations of the pgm locus among natural isolates of Yersinia pestis from China. Our results indicate that genetic variations in the pgm locus are well correlated with biovars of Y. pestis and plague foci, suggesting that the pgm locus plays a role in Y. pestis adaptation to its environment. The gene encoding two-component regulatory system sensor kinase became a pseudogene in all strains of biovar Orientalis due to a thymidine deletion, while it is intact in all the strains of the other biovars. Only strains from Foci H and L are the same as Yersinia pseudotuberculosis in that they have an intact transmembrane helix in the sensor kinase protein, which is lost in all the other strains because of the 18 bp in-frame deletion. The IS100 element that flanks the 39 terminus of the pgm locus was inserted into the chromosome during the within-species microevolution of Y. pestis, which is absent in strains from Foci G, H and L and also in Y. pseudotuberculosis. This fact indicates that the strains from these three foci are of an older lineage of Chinese Y. pestis. It is this IS100 element's absence that maintained high stability of the pgm locus in the Y. pestis strains from these three foci. The IS285 element insertion in the pigmentation segment and the IS100 element insertion in the downstream flanking region of the pgm locus are only present in strains from Foci H and L. The flanking region outside the 59 terminus of the upstream IS100 element is identical in the strains from these two foci, which is different in the other strains. All of these unique characteristics suggest that they are of a special lineage of Chinese Y. pestis.     

Genetic Fingerprinting of Pseudomonas syringae Pathovars Using ERIC-, REP-, and IS50-PCR

PCR fingerprinting using primers corresponding to repetitive (ERIC and REP) and insertion sequences (IS50) was investigated as a method to distinguish the pathovars of Pseudomonas syringae . After amplification of total DNA with the ERIC-, REP-, and IS50-PCR followed by agarose gel electrophoresis. most of the tested pathovars showed specific patterns of PCR products. The differences between the fingerprints among strains within a pathovar were small, with the exception of pathovars syringae, aptata , and atrofaciens . The fingerprints of the related pathovars savastanoi, phaseolicola, glycinea, morsprunorum, tabaci, lachrymans , and mori generated with the ERIC- and REP-primers were found to be very similar, showing the potential of this technique for taxonomical studies. In contrast, the IS50-PCR fingerprints of these pathovars were clearly distinguishable. The fingerprint patterns of a strain were highly reproducible with all three tested primer sets, also when whole cells were added to the reaction mixture. Thus, the PCR technique with the ERIC-, REP-, and IS50-primers is a rapid, simple, reproducible, and low cost method to identify and classify strains of the Pseudomonas syringae pathovars.     

一种随机引物联合多特异性DNA片段检测结核分支杆菌的新方法

目的:针对目前结核性疾病实验室诊断的局限性,探索一种更为敏感和特异的结核分枝杆菌DNA检测新方法。方法:选取10株江苏地区流行的结核分支杆菌(MTB)菌株,选取临床其他常见菌株及分枝杆菌菌株作为对照组,分别提取DNA作为随机引物的模板。参考国内、外文献设计12条随机引物,并分别对MTB及对照菌株进行单个引物随机扩增,2%的琼脂糖凝胶电泳对扩增产物进行分离并切胶纯化,通过TA克隆将纯化片段连接到质粒pEASYTM-T5 Zero并进行测序,通过BLAST-nr比对验证是否为MTB DNA片段。按照所确定的MTB片段序列,在其内部设计、合成一对特异性引物。用此特异性引物扩增对应的随机引物扩增产物,获得MTB特异性条带图谱。并将该方法检测的敏感性和特异性与临床上常用的real-time PCR进行比较。结果:经BLAST-nr比对,随机引物IS986F,S535及IS986R扩增的条带与MTB DNA有高度同源性(均为99%)。随机引物IS986F、S535和IS986R分别联合其特异性引物可以检测稀释105倍、105倍和103倍的MTB DNA,其特异性分别为100%、90%和80%。常规real-time PCR可检测出稀释104倍的MTB DNA。结论:随机引物IS986F联合其特异性引物检测结核分枝杆菌的灵敏度和特异性优于S535、IS986R两组,特异性为100%,且灵敏度优于常规real-time PCR法。     

Development of a diagnostic test for Yersinia pestis by the polymerase chain reaction

A 501 bp caf1 gene fragment and a 443 bp of pla gene fragment carried by 100 kb (pFra) and 10 kb (pPst) species-specific extrachromosomal replicons, respectively, were used as targets to study the conditions under which DNA amplification by polymerase chain reaction (PCR) may be applied to detect and identify Yersinia pestis DNA in cell lysates of pure cultures and biological samples. The sensitivity limit of PCR with the crude cell lysates of Y. pestis EV was estimated as 10–50 cfu in reaction mixture. When target Y. pestis EV cells were mixed with fresh blood of white mice, which contained 0.4% potassium citrate, the PCR detection level varied from 400 to 100 cfu ml^-1 of blood depending on the method used for preparing the sample. In our tests PCR was effective for the detection of yersinia in the blood of white laboratory mice experimentally infected with virulent Y. pestis KM638 strain. This method can be considered convenient for routine detection and identification of Y. pestis.     

Comparative study of the structure of some genetic probes used for typing Yersinia pestis strains

A nucleotide sequence common for genetic probes used for detection and investigation of Y. pestis strains MK, IS100, and HRSIII was identified on the basis of restriction, hybridization, and computer analysis. This region of chromosomal DNA is a part of low-molecular BX-probe (about 170 bp) we have developed. The results of genomic fingerprinting of Y. pestis strains by the BX-probe are promising as regards its future utilization for typing the strains isolated in various endemic areas.