Establishment and Application of a Real-time PCR Method for Detecting stx2 Gene in Shiga Toxin-producing Escherichia coli(STEC)

[Objective] This study aimed to establish a real-time PCR method for de- tecting stx2 gene in Shiga toxin-producing E. coli （STEC）. [Method] According to the known STEC stx2 gene sequences published in GenBank, PCR primers and probes were designed based on the conserved region to construct recombinant plasmid as a positive template, thus optimizing the reaction conditions and establishing the real- time PCR method. [Result] A standard curve was established based on the opti- mized real-time PCR system, indicting a good linear correlation between the initial template concentration and Ct value, with the correlation coefficient F^e of above 0.995. The established method had a good specificity, without non-specific amplifica- tion for 10 non-STEC intestinal bacterial strains; the detection limit of initial template was 1.0x102 copies/μI, indicating a high sensitivity; furthermore, the coefficients of variation within and among batches were lower than 1% and 5% respectively, sug- gesting a good repeatability. [Conclusion] In this study, a real-time PCR method was successfully established for detecting STEC stx2 gene, which provided technical means for rapid detection of STEC in samples.

Molecular Identification of Shiga-Toxin Producing and Enteropathogenic <i>Escherichia coli</i>(STEC and EPEC) in Diarrheic and Healthy Young Alpacas

Isolation and biochemical and molecular identification of 303 strains of Escherichia coli obtained from diarrheic and healthy young alpacas of Puno-Peru, were realized. PCR amplification for 7 virulence factor genes associated with STEC, STEC O157:H7, EPEC: sxt1, sxt2, rfbO157, fliCH7, hlyA, eae y bfp were determined. A total of 39 strains (12.88%) showed amplification for one or more of these genes. Twenty three strains (59%) were classified as STEC and 16 strains (41%) as EPEC. An 88.18% (34/39) of STEC and EPEC strains were obtained from healthy alpacas and only 11.82% (5/39) from diarrheic alpacas considering this specie as potential zoonotic reservoir of STEC and EPEC.

Antimicrobial Effects of Plant Compounds against Virulent <i>Escherichia coli</i>O157:H7 Strains Containing Shiga Toxin Genes in Laboratory Media and on Romaine Lettuce and Spinach

Escherichia coli strains produce Shiga-toxins Stx-1 and Stx-2 that contribute to their virulence. The objective was to evaluate antimicrobial activities of plant essential oils (oregano, cinnamon, lemongrass), their active components (carvacrol, cinnamaldehyde, citral) and plant-extracts (green tea polyphenols, apple skin, black tea, decaffeinated black tea, grapeseed and pomace extracts) against E. coli O157:H7 strains containing Stx-1 and Stx-2 genes, as determined by Multiplex Polymerase Chain Reaction, in vitro and on leafy greens. Antimicrobials at various concentrations in sterile PBS were added to bacterial cultures (~3 - 4 logs CFU/ml), mixed thoroughly, and incubated at 37°C. Surviving bacteria were enumerated at 0, 1, 3, 5 and 24 h. The most effective essential oil (oregano oil;0.5%) and plant extract (green tea;3%) were evaluated against E. coli O157:H7 on romaine lettuce and spinach stored at 4°C for 7 days. Microbial survival was a function of the concentration of antimicrobials and incubation times. All antimicrobials reduced bacterial population to below detection levels in vitro;however, essential oils and active components exhibited greater activity than plant extracts. Oregano oil and green tea reduced E. coli O157:H7 on lettuce and spinach to below detection. Plant-based antimicrobials have the potential to protect foods against E. coli O157:

Serotypes of Non-O157 Shigatoxigenic <i>Escherichia coli</i>(STEC)

Non-O157 STEC has been shown to have a diverse ecological distribution among food-animals. It has been associated with both outbreaks and individual cases of severe illness. This group of the organisms is now considered as a major contributor to human disease. The clinical description of the diseases caused by these organisms is reviewed. The host specificity of these pathogens is described and discussed. These organisms appear widespread among food animals like cattle and sheep, and can therefore affect a range of foods directly from the meat and excretions of these animals being used in farming practices. This article reviews the origins, diversity and pathogenesis of non-O157 STEC.

河南豫东地区产志贺样毒素Ecoli O157∶H7感染病例的流行病学调查研究

[目的 ]探讨河南省局部地区腹泻病人感染及携带大肠杆菌O15 7∶H7的情况 ,观察带菌时间及预后。[方法 ]采用流行病学监测方法发现病人 ,通过病人粪便mEC肉汤增菌 14h、胶体金免疫卡筛选、免疫磁珠法集菌、CHROMAGAR O15 7∶H7显色培养基分离、rfbO15 7、rfbO111、hlyA、stx1、stx2、eaeA引物PCR扩增方法进行毒力因子测定等方法 ,观察、研究感染病人的发病和预后。[结果 ]从 130 3份腹泻病人中共分离出的 38株O15 7∶H7菌株 ,检出率 2 9% ,PCRrfbO15 7扩增均为阳性。其中 2株具有stx2、hlyA和eaeA毒力基因 ,36株为O15 7∶H7不产毒株。[结论 ]我省首次从病人中分离出O15 7∶H7产毒株 ,病人发病后可于第 3～

Identification of E. coli K12 chromosomal insertion sites of bacteriophage φ297

Objective:To identify the specific integration site of prophage φ297 in the host of E. coli K12 chromosome. Methods:Using molecular techniques such as Siebert PCR for walking from the int gene of prophage 297, which is similar to that of phage 933W to an unknown region in genomic DNA. A special adaptor is ligated to the ends of DNA fragments generated by digestion of genomic DNA with restriction enzymes that generates blunt ended fragments. Clone and subclone of PCR products, DNA sequencing and data analysis were used in this study. Results:The attL, attR and the core sequences were determined. The bacterial attachment site of phage φ297 was located in the yecE gene of E. coli K12. Conclusion:The phage φ297 integrates into the yecE gene of the E. coli K12 genome.

Occurrence of Escherichia coli virulence genes in feces of wild birds from Central Italy

Objective: To investigate the potential role of wild birds as fecal spreaders of enteropathogenic,enterohemorrhagic and Shiga-toxins producing Escherichia coli(E. coli),enteropathogenic E. coli,enterohemorrhagic E. coli and Shiga toxin-producing E. coli strains. Methods: Fecal samples collected from 121 wild birds of different orders and species were submitted to molecular analyses. In particular,eaeA encoding intimin,hlyA encoding for hemolysin,stx1 and stx2 genes encoding Shiga-toxins 1 and 2,respectively,were investigated. Results: Overall,21(17.35%) fecal samples resulted positive for at least one of the investigated genes. In detail,12(9.91%) samples were positive for eaeA,10(8.26%) for stx1,4(3.31%) for hylA and 1(0.83%) for stx2. An owl(Athene noctua) positive for the four investigated genes suggesting that it harbored a STEC strain. However,virulence genes characterizing EPEC,and EHEC strains were mainly found among seagulls,waterfowl and feral pigeons. Conclusions: Seagulls,waterfowl and feral pigeons,which frequently reach and contaminate rural,urban and peri-urban areas with their droppings,may be important sources of E. coli infection for other animals and humans.

Identification of Shiga-like toxin Escherichia coli isolated from children with diarrhea by polymerase chain reaction

Objective To evaluate the etiology of Shiga-like toxin-producing Escherichia coli (SLTEC) in children with diarrhea. Methods We designed and synthesized 3 pairs of primers located in the SLT1, SLT2, and eaeA genes of enterohaemorrhagic Escherichia coli (EHEC), while the virulent genes SLT1, SLT2, and eaeA from E.coli species were amplified by polymerase chain reaction (PCR). Results One strain of EHEC with SLT1, SLT2, and eaeA in 29 reference strains of diarrhea-causing E.coli (DCEC) and 10 strains of other enterobacteria detected by PCR had positive reactions, while all other DCEC and enterobacteria were negative. Of 474 strains of E. coli isolated from 1032 children with diarrhea and detected by PCR, 20 strains of SLT1 producing E. coli (4.2%) positive, and 7 strains of SLT2 producing E.coli (1.5%) positive; while of 74 strains of entero-SLTs-producing and invasive Escherichia coli (ESIEC), 15 strains of SLT1 (20.3%) and 5 strains of SLT2 (6.8%) were positive. Conclusion Shiga-like toxin E. coli has been identified as a major etiologic agent of children with diarrhea in Taiyuan, China.

4种常见食源性病原菌多重PCR检测技术研究

为了解决常规方法检测食源性病原菌存在操作繁琐、周期长的问题,基于4种常见食源性病原菌特异基因序列扩增提出了一种快速、高效的多重PCR(multiplex polymerase chain reaction, MPCR)检测方法。根据单增李斯特菌iap基因、蜡样芽孢杆菌gyrB基因、产志贺毒素大肠埃希氏菌stxⅠ基因、肠炎沙门氏菌invA基因的特异序列分别设计引物后建立MPCR反应体系,测试其特异性、敏感性和可行性,并与国标培养法进行比较。结果表明:MPCR扩增出4个目标基因的特异性条带大小依次为371、221、432、171 bp;在58℃的退火温度下,MPCR扩增表现出良好的特异性,无非特异性扩增,4种病原菌最低检出限达到102CFU/mL;MPCR方法和国标培养法对多种食源性病原菌感染的牛奶样品的检测结果完全一致,检测周期由原来的5~7 d缩减到8~9 h。所建立的MPCR技术作为一种快速、高效的检测方法,可为食品安全生产提供保障。

肠出血性大肠杆菌疫苗的开发和展望

[背景]肠出血性大肠杆菌(enterohemorrhagic Escherichia coli,EHEC)感染是世界范围内重要的公共卫生问题之一,目前还未有针对EHEC的有效预防控制手段.安全有效的疫苗可以提供对EHEC感染的免疫保护.[进展]本文主要介绍EHEC相关疫苗的研发进展及可用于评估各种免疫策略的动物模型.EHEC疫苗开发策略主要针对志贺毒素及黏附相关毒力因子,通过特异性抗原激活机体免疫达到预防控制效果.进而讨论EHEC外膜囊泡(outer membrane vesicles,OMVs)疫苗的制备方式及其作为多抗原疫苗平台的应用潜力.[展望]对EHEC抗原的筛选以及OMVs疫苗平台的设计,将有助于人们更充分掌握EHEC感染与免疫的分子机制,开发出针对更多血清型的EHEC疫苗.

市售肉品产志贺毒素大肠杆菌污染情况与耐药性分析——以泰安市为例

产志贺毒素大肠杆菌(STEC)是一类产生一种或一种以上志贺毒素的具有强致病能力的食源性病原菌,现已是威胁人类健康的重要公共卫生问题之一。本文以山东省泰安市为调查点,对商超和农贸市场零售肉中产志贺毒素大肠杆菌(STEC)的污染情况进行调研,170份零售肉样品中9份样品检出STEC阳性,检出率为5.3%;其中商超和农贸市场的检出率分别为3.1%和6.7%,无显著性差异(P>0.05)。通过聚合酶链式反应(PCR)研究24株STEC分离菌株的血清型、毒力基因的携带情况。24株STEC中12株确定O血清型,分别为O26(10株)和O45(2株)。主要携带的毒力基因为stx1,hlyA(62.5%,15/24)和stx2(37.5%,9/24)基因,eaeA基因未检出。通过纸片扩散法对24株产志贺毒素大肠杆菌菌株进行耐药性检测,分离株对麦迪霉素的耐药率最高91.7%,对阿莫西林、氨苄西林的耐药率均为37.5%,对头孢西丁和多粘菌素敏感。综上所述,泰安市零售畜禽肉品中存在STEC不同程度的污染,其中猪肉、牛肉引起食源性疾病风险较大。本研究为相关部门加强市售肉品中STEC的监控提供一定的指导。

猪源大肠杆菌(ETEC、STEC、AEEC)毒力基因及其与O抗原型的关系

【目的】揭示从我国部分地区仔猪腹泻或水肿病病猪体内分离到的300个大肠杆菌分离株所属病原型(pathotype)、毒力基因及其与O血清型的关系。【方法】O血清型采用常规的凝集试验进行测定,毒力基因采用PCR方法检测。【结果】通过对这300个分离株的O血清型及其毒素、紧密素和黏附素基因进行鉴定,结果显示除50株未定型、17株自凝外,测定出233个分离株的血清型,这些分离株覆盖了45个血清型,其中以O149、O107、O139、O93和O91为主,共133株,占定型菌株的57.1%;拥有estⅠ、estⅡ、elt、stx2e和eaeA基因的菌株分别为102(34.0%)、190(63.3%)、81(27.0%)、57(19.0%)和54(18.0%)株;分离株中有51株K88基因阳性(其中菌毛表达率为100%),75株F18基因阳性(其中菌毛表达率为50.7%),在K88菌株中,O149血清型与estⅠ或estⅡ+elt密切相关,在F18菌株中,O107血清型与estⅠ或estⅡ、O139血清型与stx2e紧密相关。依其毒力特征可将这些分离株分为以下6种类型:ETEC、STEC、AEEC、ETEC/STEC、AEEC/ETEC和AEEC/ETEC/STEC,分别拥有190、24、36、32、17和1个菌株,占分离株的63.3%、8.0%、12.0%、10.7%、5.7%和0.3%。通过分析这些分离株的O血清型、毒素类型和黏附素型之间的相关性:猪源ETEC以O149、O107、O93和O98等血清型为主,O149:K88菌株主要与estⅡ或estⅡ+elt肠毒素相关,O107:F18菌株主要与estⅡ相关,O93和O98血清型菌株主要与estⅡ肠毒素相关;STEC菌株以O139:F18血清型为主,拥有stx2e;AEEC菌株拥有紧密素,无明显优势血清型;ETEC/STEC菌株以O107:F18和O116:F18血清型为主,主要与estⅠ+stx2e或estⅡ+stx2e密切相关,ETEC/AEEC菌株以O91和O107血清型为主,全部拥有肠毒素estⅠ和紧密素基因。【结论】我国至少存在6种病原型的猪肠道致病性大肠杆菌,其中ETEC为我国部分地区猪大肠杆菌病的主要病原,同时其病原型日益复杂。

利用PCR法鉴定产SLT-IIe大肠杆菌

类志贺氏菌毒素Ⅱ型变异体（ Ｓｈｉｇａｌｉｋｅ Ｔｏｘｉｎ Ⅱ Ｖａｒｉａｎｔ， Ｓ Ｌ ＴⅡｖ ｏｒ Ｓ Ｌ ＴⅡｅ），是仔猪水肿病的主要致病因子。根据 Ｓ Ｌ ＴⅡｅ 基因序列，合成一对针对 Ｓ Ｌ ＴⅡｅ 操纵子基因保守区的寡核苷酸引物，建立了聚合酶链式反应（ Ｐ Ｃ Ｒ）扩增方法。通过对产 Ｓ Ｌ ＴⅡｅ 毒素大肠杆菌菌株 Ｔ Ｂ１、产 Ｓ Ｌ ＴⅡ毒素大肠杆菌菌株 ９３３ Ｗ 和产 Ｓ Ｌ ＴⅠ毒素大肠杆菌菌株 Ｈ３０ 的试验，结果表明用所设计的引物建立的 Ｐ Ｃ Ｒ方法可特异性鉴定产 Ｓ Ｌ ＴⅡｅ 大肠杆菌。用此法对本实验室从患水肿病仔猪肠道分离的 １５ 株大肠杆菌进行了鉴定，结果可从 １５ 个菌株的 １２ 株中扩增到 Ｓ Ｌ ＴⅡｅ 的特异性保守序列基因片段，而其它菌株未见此保守序列的基因片段。

河南省新发传染病EHEC O157：H7监测研究

[目的]了解河南省肠出血性大肠杆菌(EHEC)感染性腹泻的发病情况、宿主带菌状况、食品污染程度及志贺毒素(stx)基因型,为制订有效的防治对策提供依据。[方法]采集河南省监测点腹泻病人、家畜、家禽粪便,水和肉食品等标本分离EHEC菌株,应用分子生物学技术检测分析菌株rfbO157、rfbO111、hlyA、eaeA、stx2和stx1等毒力基因和突变基因。[结果](1)从腹泻病人、家畜、家禽、食品、水、蜣螂和苍蝇中均分离出EHEC菌株共275株,总分离率7.88%;其中O157︰H7菌株为232株(84.36%),携带stx2基因EHECO157︰H7菌株88株(37.93%);非O157︰H7菌株43株(15.64%)。(2)宿主动物中羊带菌率最高(6.96%),是河南省EHEC最主要宿主动物;多重PCR检测出8种不同毒力基因组合型,主要为rfbO157+、hlyA+、eaeA+、stx2+组合。stx2变种毒素GK探针检测出3种毒素变种杂交带型,其中stx2原毒素+stx2vha型占7.4%,stx2vha型的占72.2%,未知新杂交带型占20.4%。(3)EHECO157︰H7菌株可分为9个PFGE型,自羊、牛、鸡和蜣螂和腹泻病患者中分离的携带stx2vha菌株同属一个PFGE型。(4)144株不携带志贺毒素的O157菌株中发现O157︰H38、O157︰H42和O157︰Hund(未确定型)新菌株。[结论]河南省家禽、家畜中普遍携带EHECO157︰H7大肠杆菌,羊是最主要的宿主动物;EHECO157︰H7为我省优势菌型,其毒素基因型为stx2-eaeA-hlyA并以stx2vha亚型为主。EHEC在外环境中污染严重并可在人与人、动物与人之间传播,家畜、家禽携带stx2 EHECO157︰H7率的高低与EHEC人群感染发病呈相关关系。

产志贺毒素大肠埃希氏菌活菌检测方法的应用现状及展望

产志贺毒素大肠埃希氏菌作为一种重要的食源性致病菌,会对人体健康造成严重威胁。对其进行快速、准确的鉴定检测是预防和控制相关疾病的有效手段。基于此,文章对目前可用于检测活体产志贺毒素大肠埃希氏菌的方法进行综述,主要包括传统的细胞培养方法、免疫学检测方法和分子生物学方法等,并对这些方法的应用和发展前景展开了深入探讨。随着分子生物学和生物工程技术的发展,不同检测方法联合使用可以克服单一方法的缺陷,从而取得更高效、准确的检测结果。

致猪水肿病大肠杆菌鄂E株SLT-IIeB基因的克隆、序列分析及原核表达

以湖北本地分离的致猪水肿病大肠杆菌鄂E株为模板,PCR扩增去掉信号肽和跨膜区的SLT-IIeB基因,将其克隆到原核表达载体pGEX-KG。同时对筛选出的阳性质粒pGEX-SLT-IIeB进行测序,测序结果与Genbank上发表的12个SLT-IIeB基因序列的同源性达100%,表明该基因保守性很好。重组质粒pGEX-SLT-IIeB经IPTG诱导后在大肠杆菌中实现了表达,SDS-PAGE分析表明表达产物GST-SLT-IIeB有特异性表达带,Western-blot检测证实表达产物具有免疫反应性。

肝片吸虫Fh8明显增强STEC的Stx1可溶性表达及Stx1单克隆抗体制备

志贺毒素1（Shiga toxin 1,Stx1）,系五聚体蛋白,是产志贺毒素性大肠杆菌（Shiga Toxin-producing Escherichia coli,STEC）主要的毒素因子,但Stx1体外极不易可溶性表达,旨在克隆和表达志贺毒素1（Shiga toxin 1,Stx1）A亚基,体外获得可溶性表达的Stx1,以研制单克隆抗体。生物信息学软件分析Stx1A亚基氨基酸序列,Stx1A1亚基N端为信号肽段,其C端高疏水性和低免疫原性。PCR扩增stx1A亚基73~759的687个核苷酸,与肝片吸虫Fh8基因串联,克隆到低温表达载体p ColdⅠ以构建重组菌,诱导表达重组毒素His-Fh8-Stx1A,SDS-PAGE分析蛋白表达形式。重组毒素His-Fh8-Stx1A免疫Balb/c小鼠,Sp2/0细胞融合筛选、制备阳性杂交瘤和单克隆抗体。PCR扩增Fh8和stx1a亚基并构建重组质粒p ColdⅠ-His-Fh8-stx1,重组蛋白在原核细胞中得到高效表达,且以可溶性形式存在于菌体胞浆中。以重组His-Fh8-Stx1A为免疫原,成功制备3株能稳定传代并分泌Stx1的单克隆抗体（Mc Ab）的杂交瘤细胞株,取其中1株成功制备高ELISA效价的腹水。Western Blot显示,纯化的单克隆抗体可与重组免疫原His-Stx1A和天然志贺毒素1发生特异性反应。本试验成功可溶性表达志贺毒素1A亚基,并获得多株单克隆抗体,为研制用于检测STEC的夹心ELISA和胶体金试纸条奠定理论基础。

不同来源STECO157:H7生物学特性研究

目的探讨浙江省产志贺毒素大肠埃希菌O157:H7菌株PFGE分型及携带毒力基因以及耐药情况。方法菌株生化、血清鉴定按API20E鉴定系统;大肠杆菌O157:H7诊断血清凝集试验;采用聚合酶链反应(PCR)法检测O、H抗原及毒力基因SLT1、SLT2、Hly、eaeA;STECO157:H7分型用脉冲场凝胶电泳(pulse field gel electrophoresis,PFGE)方法进行;14种抗生素进行药敏试验采用K-B法。结果5株可疑菌株经生化和血清鉴定符合O157:H7特性;毒力基因检测所有分离株SLT2、Hly、eaeA三种毒力基因均阳性而SLT1均阴性;脉冲场凝胶电泳分型结果显示,有2株菌PFGE电泳条带完全相同,其余3株菌电泳条带不同,5株菌共分为4个带型;经耐药性分析,菌株对头孢噻吩、头孢噻肟、庆大霉素、环丙沙星100%敏感;对复方新诺明、氨苄西林100%耐药。结论STEC 0157:H7菌株在浙江省一些地区存在,并且携带SLT2毒力基因,PFGE型别较多,同时也有人间感染病例的出现,提示应加强O157:H7监测力度,防止该菌在人间的感染和流行。

伊犁地区肉牛源产志贺毒素大肠杆菌的血清型和ERIC-PCR基因型研究

目的:了解产志贺毒素大肠杆菌在伊犁地区肉牛养殖环境和加工环节中的污染状况及其遗传多样性,为产业链中食源性致病性大肠杆菌的风险监测和控制提供基础数据。方法:采用传统方法和PCR方法对养殖环节的饲草料和粪便及屠宰环节的553份样品进行产志贺毒素大肠杆菌的污染调查,对分离鉴定的产志贺毒素大肠杆菌进行7种常见血清型(O145、O157、O45、O103、O111、O26、O121)的PCR检测和ERIC-PCR的基因分型。结果:检测553份样品中有39株编码志贺毒素基因,产志贺毒素大肠杆菌(STEC)的检测率是7.1%。常见血清型PCR检测中血清型O111有2株菌,检出率是5.1%;O145有5株菌,检出率是12.8%。ERIC-PCR基因分型产志贺毒素大肠杆菌有10种基因亚型,分成3簇,A簇有23株菌,相似性在59%~100%,表明这些菌株之间的亲缘关系较近。结论:伊犁地区肉牛粪便是产志贺毒素大肠杆菌的污染源,这些菌株的亲缘关系较近。

产Shiga毒素噬菌体φ297在大肠杆菌K12染色体上整合位点的定位研究

鉴定大肠杆菌O15 7产生Shiga毒素 (Stx)的噬菌体 φ2 97在大肠杆菌K12染色体上的插入位点。采用加接头PCR方法从与噬菌体 933W的整合酶基因int同源的核苷酸开始向未知区域进行步移测序 ,寻找目的基因。将获得的DNA序列与核苷酸数据库进行比较 ,确定了细菌性噬菌体 φ2 97的attL、attR和中心序列位于大肠杆菌K12的yecE基因内。噬菌体 φ2 97在宿主细胞E .coliK12染色体上的整合位点是yecE基因。