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1.
近年来,噬菌体研究再度成为细菌病原研究的最新热点之一,许多溶源菌的遗传性状、细菌毒力与原噬菌体密切相关,噬菌体控制着一些重要细菌毒素的产生。出血性大肠杆菌(Enterohemorrhagic Escherichia coli,EHEC)0157原噬菌体有一个重要的生物学特性就是毒素结构基因是由溶源性噬菌体编码的。这些噬菌体已经从人、牛和猪各种各样临床病例菌株中分离到,但关于这些噬菌体的流行特性、传播规律还有很多尚未阐明,噬菌体的分离是这些工作的基础,本研究使用EHEC O157:H7标准菌株EDL933,对快速分离噬菌体的方法进行摸索和研究,为今后噬菌体的分离提供有价值的技术路线。 相似文献
2.
为了了解新疆伊犁地区肉牛屠宰过程中大肠杆菌的污染情况,检测非O157致病性产志贺毒素大肠杆菌(Shiga toxin-producing Escherichia coli,STEC)的感染情况,本试验采集新疆伊犁地区某定点肉牛屠宰场中屠宰肉牛的粪样和屠宰后的胴体表面拭子,并对样品进行了大肠杆菌的分离鉴定、毒力基因(eae、stx1、stx2)的PCR检测、O157鉴定(rfbE)、ERIC-PCR基因分型和小鼠致病性试验。结果显示,在采集的45份样品中分离鉴定出42株大肠杆菌,分离率为93.3%。其中2株菌株同时编码了毒力基因stx1和stx2,检出率为4.8%,毒力基因eae未被检出。PCR鉴定均为非O157 STEC。ERIC-PCR基因分型检测发现,2株菌的基因型非常相似,同源关系密切。对小鼠进行腹腔注射攻毒,攻菌6 h后,小鼠开始出现死亡,立即解剖死亡小鼠发现,其肠道出血,肝脏、脾脏、肾脏明显出血肿大,解剖对照小鼠表现正常,表明菌株具有一定的致病性。综上所述,在肉牛屠宰过程中存在大肠杆菌污染,其中粪便中非O157 STEC菌株对胴体造成了污染,需要加强控制肉牛的屠宰加工关键环节的环境卫生。 相似文献
3.
为了解中国川西北牦牛肉中产志贺毒素大肠杆菌(STEC)的携带情况及stx2的亚型和特征,试验将采集的204份川西北牦牛肉样品(各25g)增菌培养后,每份挑取5个可疑菌落,采用stx1、stx2双重PCR方法检测STEC,对分离株中的stx2分型并克隆测定stx2编码区序列。结果显示,在204份样品中分离出8株STEC,平均分离率为3.9%(8/204);存在4个不同的O血清型,分别为O38(4)、O50(1)、O74(2)、O150(1);在6株含有stx2的菌株中,其中有2株为stx2a型、4株为stx2c型。结果表明牦牛源分离株氨基酸序列与人源和牛源菌株同源性较高;由stx2A、B亚基的氨基酸序列系统进化树可知,牦牛源分离株与人源、牛源菌株聚为一支,表明它们之间遗传距离相对较近,牦牛源stx2各自分布在自己的小分支中,表明牦牛源STEC stx2与人源和牛源stx2相比,尽管亲缘关系较近,但仍存在一定程度的差异。 相似文献
4.
江苏某奶牛场健康奶牛体内产志贺毒素大肠杆菌的分离鉴定及其对小鼠致病性的研究 总被引:1,自引:0,他引:1
通过对江苏省某奶牛场连续6个月的定群、定畜跟踪调查,获得产志贺毒素大肠杆菌(STEC)在该牛场分布的广泛性、持续性和血清型多样化的资料,并对一些重要血清型分离株作致病性的鉴定.基于本实验室已经建立的多重PCR方法对stx1、stx2、eaeA、ehxA共4个基因进行检测,对检测出的阳性样品,非O157 STEC采用多重PCR结合CT-SMAC平板的分离方法,而O157 STEC通过免疫磁珠结合O157显色平板的分离方法.结果表明,该奶牛场STEC的初筛率为16.1%(112/696),分离率为11.1%(77/696).分离株属于35种O血清型和60种O:H血清型.该场的优势血清型为O4、O26和O93,O157在该场存在,但并非优势血清型.77个分离株中,stx2基因的检出率为68.8%,远远高于其它毒力基因,如stx1(19.5%)、eaeA(11.7%1)和ehxA(20.8%).该场分离到一些O157和O26血清型的菌株,对小鼠具有较强的致病性.奶牛是STEC的天然宿主,可健康带菌.除了O157STEC外,非O157 STEC中一些高致病力菌株对人类的健康也存在威胁. 相似文献
5.
为了解2009-2010年间在河南、甘肃地区分离鉴定的5株大肠埃希菌O157(E.coli O157)携带stx的情况及不同分离株间stx分子进化与变迁的情况,本研究利用PCR方法对分离株进行了stx基因检测,并完成了序列测定与系统演化分析。结果表明,5株不同动物源的分离株均含有stx1及stx2基因。序列分析结果显示5株分离株间stx1、stx2的核苷酸及氨基酸同源性均较高;stx1基因均与参考株中的山羊源和食品源E.coli O157菌株的同源性较高,进化树中遗传距离最近;分离株的stx2基因与多株牛源及少数人源参考株也具有较高的同源性,进化树中虽然5株分离菌均在一个大主干分支中,但分离株27与其他各分离株及参照株遗传距离最远,独自处于一次级分支中;分离株L37与W、12与50分别分布于牛源、人源E.coli O157小次级分支中;由此可推测,分离株所携带的stx1很有可能是经食品源或羊源E.coli O157传递而来;分离株L37与W、分离株12与50的stx2可能是由牛源、人源E .coli O157菌株传递而来,分离株27的stx2来源不清楚。研究结果表明,5株E.coli O157分离株均含有stx1、stx2基因,但两个基因的起源存在差异。 相似文献
6.
为了解2009-2010年间在河南、甘肃地区分离鉴定的5株大肠埃希菌O157(E.coli O157)携带stx的情况及不同分离株间stx分子进化与变迁的情况,本研究利用PCR方法对分离株进行了stx基因检测,并完成了序列测定与系统演化分析.结果表明,5株不同动物源的分离株均含有stx1及stx2基因.序列分析结果显示5株分离株间stx1、stx2的核苷酸及氨基酸同源性均较高;stx1基因均与参考株中的山羊源和食品源E.coli O157菌株的同源性较高,进化树中遗传距离最近;分离株的stx2基因与多株牛源及少数人源参考株也具有较高的同源性,进化树中虽然5株分离菌均在一个大主干分支中,但分离株27与其他各分离株及参照株遗传距离最远,独自处于一次级分支中;分离株L37与W、12与50分别分布于牛源、人源E.coli O157小次级分支中;由此可推测,分离株所携带的stx1很有可能是经食品源或羊源E.coli O157传递而来;分离株L37与W、分离株12与50的stx2可能是由牛源、人源E.coli O157菌株传递而来,分离株27的stx2来源不清楚.研究结果表明,5株E.coli O157分离株均含有stx1、stx2基因,但两个基因的起源存在差异. 相似文献
7.
大肠杆菌O157:H7 rfbE基因和fliC基因的克隆与序列分析 总被引:2,自引:0,他引:2
根据已发表的E.coli O157:H7 EDL933株的rfbE基因和fliC基因,设计了两对引物,分别对两个O157:H7,菌株的rfbE基因和一个菌株的fliC基因进行PCR,并将PCR产物克隆于pMD18-T栽体质粒。测序结果表明,获得到了与理论相符的582bp rfbE基因片段和802bp fliC基因片段。一株菌的rfbE基因存在无意义突变(两个)。而另一株菌fliC基因有一个有意义突变(aac→gac) 相似文献
8.
9.
为了研究东北地区健康鸡源大肠杆菌毒力基因的携带分布以及PFGE分子分型情况,试验采用PCR技术对413株鸡源大肠杆菌的4种毒力基因进行检测,并运用XbaⅠ酶进行酶切后完成PFGE分析,利用软件分析菌株间的相关性和遗传关系。结果表明,在检测的413株菌株中,fimH毒力基因携带率为77.72%,iucD毒力基因的检出率为56.42%,强致病性毒力岛(HPI)的标志基因fyuA和irp2毒力基因携带率分别为44.07%和43.83%;29株大肠杆菌呈现出28种不同的PFGE型,每一株菌被XbaⅠ消化为14~20条带,菌株相似度为30%~100%;多数菌株携带毒力基因,且毒力基因的类型较为复杂,PFGE分型结果具有多样性和差异性。提示应加强鸡源大肠杆菌毒力基因的检测以及分子分型研究,为大肠杆菌病等防控提供参考。 相似文献
10.
本研究的目的是通过调查新疆地区分离的牛源产志贺毒素大肠杆菌(STEC)的耐药表型和基因型,掌握STEC耐药性的发展和传播规律。本研究对新疆6个地区的牛源(非O157:H7)STEC分离株进行了18种抗生素的药物敏感性试验,并检测菌株中携带的超广谱β-内酰胺酶(ESBLs)基因。结果显示:4.31%STEC表现为多重耐药,1.91%为产ESBLs菌株。检测到的主要ESBLs基因包括blaTEM和blaCTX-M。这是首次在新疆STEC中检测到blaTEM和blaCTX-M。本研究分离出的多数多重耐药STEC属于系统发育A群。多重耐药STEC可能是由非致病性大肠杆菌获得毒性和耐药基因而形成的。抗生素的选择压力可能对细菌在牛肠道中的定植表现出一定竞争优势,从而增加了耐药STEC对食物的污染。 相似文献
11.
XUE Tao LI Li GAO Qing-qing CHEN Xian-liang LI Tian-tian QU Xin-qin GAO Song 《中国畜牧兽医》2017,44(10):2878-2885
This study was aimed to understand the relationship of virulence gene distribution and genetic evolution between cattle originated Shiga toxin-producing Escherichia coli (STEC) and human originated enterohaemorrhagic Escherichia coli (EHEC) O157. This experiment collected 18 strains STEC in a dairy farm from Jiangsu province and 9 STEC reference strains (human, sheep, swine and avian), according to the method of U.S. Centers for Disease Prevention and Control Center (PulseNet), using the XbaⅠ enzyme digestion and pulsed field gel electrophoresis (PFGE) analysis, virulence genes were detected in some STEC isolates. The virulence gene distribution of O157 from different origin was remarkably different. The cattle originated STEC O157 and the human originated EHEC O157:H7 (EDL933W) had the most similar virulence gene distribution. In contrast, virulence genes were lack in cattle STEC O18 and O26, even though the cattle STEC O18 and O26 had the similar genotype as human EHEC O157:H7 (EDL933W). PFGE of Xba Ⅰ digested chromosomal DNA from 27 isolates of STEC exhibited 22 profiles. In general,the Dice coefficients of different originated STEC ranged from 72% to 100%.Cattle STEC O157 had a high similarity with two strains of human originated EHEC O157, while a low similarity was demonstrated between cattle STEC O157 and STEC O157 of swine and avian. The Dice coefficients of the cattle STEC O157 and the two strains of human EHEC O157 ranged from 83% to 95%. The Dice coefficients of cattle STEC O26 (Ⅶ,Ⅷ) and the two strains of human EHEC O157 were more than 82%. Therefore, it was concluded that the cattle STEC O157 and human EHEC O157 had a closer relationship in terms of virulence gene distribution and in genetic evolution. 相似文献
12.
A total of 136 Shiga toxin-producing Escherichia coli (STEC) isolated during a longitudinal survey of three Australian dairy farms were examined to determine their virulence factors, serotype and genomic relationships. This study aimed to assess the potential of these STEC to cause disease in humans and to analyse the on-farm ecology of STEC. Virulence factors (stx, eae, ehxA) were used as determinants of potential to be enterohaemorrhagic E. coli (EHEC) and were examined using polymerase chain reaction (PCR). Among the cattle groups tested, calves, both before and during weaning, shed the most putative EHEC and were the main source of serotypes commonly associated with human disease. E. coli O157:H7 and E. coli O26:H11 represented 9.4 and 7.8% of cattle STEC isolates respectively, with other putative EHEC serotypes reported for the first time from cattle. Based on serotype and virulence factors, 20% of STEC were putative EHEC. Pulsed-field gel electrophoresis (PFGE) was used to compare the genomic profiles of STEC from dairy farms. Isolates common to cattle and the farm environment were identified. Multiple strains of STEC with high clonal turnover were detected in the faeces of cattle, and isolates appeared to be specific to individual farms. To fully assess the pre-slaughter EHEC risk factors on-farm, examination of STEC virulence is as important as determination of STEC prevalence. 相似文献
13.
旨在了解新疆牛、羊和骆驼源产志贺毒素大肠埃希菌(Shiga toxin-producing Escherichia coli,STEC)的系统进化分群、血清群、毒力基因、耐药性及其遗传多样性,本研究采用PCR方法对牛、羊和骆驼源STEC进行了系统发育分群、血清群和毒力基因stx1、stx2(包括亚型)、eaeA、hlyA检测,通过K-B纸片法对分离株进行药物敏感性检测,并对其进行ERIC-PCR基因分型。结果表明:94株非O157 STEC以B1群为主,含9个血清群,包括O146(n=14)、O22(n=7)、O3(n=4)、O168(n=4)、O8(n=3)、O167(n=2)、O88(n=1)、O112ab (n=1)和O147(n=1)。毒力基因检测显示,46.8%(44/94)仅携带stx1,6.4%(6/94)仅携带stx2,46.8%(44/94)同时携带stx1+stx2。羊源STEC以携带stx1+hlyA为主(68.0%);牛源STEC以携带stx1+stx2+hlyA为主(57.9%);骆驼源STEC以携带stx1+hlyA为主(25.0%)。stx1a主要分布于牛源STEC,stx1c主要分布于羊源STEC。14株(14.9%)为耐药菌,对头孢他啶、四环素、头孢噻肟、氨苄西林和氨曲南的耐药率为3.2%~5.3%,对复方新诺明、头孢吡肟、哌拉西林-他唑巴坦、氨苄西林-舒巴坦、阿莫西林-克拉维酸和多黏菌素B的耐药率为1.1%~2.1%。ERIC-PCR结果显示牛、羊和骆驼源STEC亲缘关系较近。牛、羊和骆驼携带多种已知血清群STEC,贮存丰富的毒力基因,存在感染人类的风险,应在屠宰加工过程中予以预防和控制。 相似文献
14.
Faecal samples were collected from 573 slaughtered cattle aged between three and 24 months in seven abattoirs. After enrichment (mTSB with novobiocin), samples were screened by real‐time PCR first for stx and if positive, tested for the top‐five Shiga toxin‐producing Escherichia coli (STEC) serogroups using PCR assays targeting genes specific for serogroups O26, O103, O111, O145 and O157. Of 563 samples with available results, 74.1% tested positive for stx genes. Amongst them, the serogroups O145, O103, O26, O157 and O111 were detected in 41.9%, 25.9%, 23.9%, 7.8% and 0.8%, respectively. From 95 O26, 166 O145 and 30 O157 PCR‐positive samples, 17 O26, 28 O145 and 12 O157 strains were isolated by colony hybridization after immunomagnetic separation. The 17 O26 strains were eae‐positive, but only nine strains harboured stx (eight possessing stx1 and one stx2). Of the 28 O145 strains, ten were eae‐positive including four harbouring stx1 or stx2, whereas 18 were negative for stx and eae. Five of the 12 O157 strains harboured stx2 and eae, did not ferment sorbitol, and were identified as STEC O157:H7/H?. The other seven O157 strains were negative for stx and eae or positive only for eae. Shiga toxin genes and the top‐five STEC serogroups were frequently found in young Swiss cattle at slaughter, but success rates for strain isolation were low and only few strains showed a virulence pattern of human pathogenic STEC. 相似文献
15.
Over a 12 month period, 588 cattle faecal samples and 147 farm environmental samples from three dairy farms in southeast Queensland were examined for the presence of Shiga-toxigenic Escherichia coli (STEC). Samples were screened for Shiga toxin gene (stx) using PCR. Samples positive for stx were filtered onto hydrophobic grid membrane filters and STEC identified and isolated using colony hybridisation with a stx-specific DNA probe. Serotyping was performed to identify serogroups commonly associated with human infection or enterohaemorrhagic Escherichia coli (EHEC). Shiga-toxigenic Escherichia coli were isolated from 16.7% of cattle faecal samples and 4.1% of environmental samples. Of cattle STEC isolates, 10.2% serotyped as E. coli O26:H11 and 11.2% serotyped as E. coli O157:H7, and the E. coli O26:H11 and E. coli O157:H7 prevalences in the cattle samples were 1.7 and 1.9%, respectively. Prevalences for STEC and EHEC in dairy cattle faeces were similar to those derived in surveys within the northern and southern hemispheres. Calves at weaning were identified as the cattle group most likely to be shedding STEC, E. coli O26 or E. coli O157. In concurrence with previous studies, it appears that cattle, and in particular 1-14-week-old weanling calves, are the primary reservoir for STEC and EHEC on the dairy farm. 相似文献
16.
Some Shiga toxin-producing Escherichia coli strains (STEC), and in particular E. coli O157:H7, are known to cause severe illness in humans. STEC have been responsible for large foodborne outbreaks and some of these have been linked to dairy products. The aim of the present study was to determine the dissemination and persistence of STEC on 13 dairy farms in France, which were selected out of 151 randomized dairy farms. A total of 1309 samples were collected, including 415 faecal samples from cattle and 894 samples from the farm environment. Bacteria from samples were cultured and screened for Shiga toxin (stx) genes by polymerase chain reaction (PCR). STEC isolates were recovered from stx-positive samples after colony blotting, and characterized for their virulence genes, serotypes and XbaI digestion patterns of total DNA separated by pulsed-field gel electrophoresis (PFGE). Stx genes were detected in 145 faecal samples (35%) and 179 (20%) environmental samples, and a total of 118 STEC isolates were recovered. Forty-six percent of the STEC isolates were positive for stx1, 86% for stx2, 29% for intimin (eae-gene) and 92% for enterohemolysin (ehx), of which 16% of the STEC strains carried these four virulence factors in combination. Furthermore, we found that some faecal STEC strains belonged to serotypes involved in human disease (O26:H11 and O157:H7). PFGE profiles indicated genetic diversity of the STEC strains and some of these persisted in the farm environment for up to 12 months. A large range of contaminated samples were collected, in particular from udders and teats. These organs are potential sources for contamination and re-contamination of dairy cattle and constitute an important risk for milk contamination. 相似文献
17.
Guth BE Chinen I Miliwebsky E Cerqueira AM Chillemi G Andrade JR Baschkier A Rivas M 《Veterinary microbiology》2003,92(4):335-349
Shiga toxin (Stx)-producing Escherichia coli (STEC) strains isolated from animals and food in Argentina (n=44) and Brazil (n=20) were examined and compared in regard to their phenotypic and genotypic characteristics to evaluate their pathogenic potential. The clonal relatedness of STEC O157 isolates (n=22) was established by phage typing (PT) and pulsed-field gel electrophoresis (PFGE). All O157 strains studied carried eae and enterohemorrhagic E. coli (EHEC)-hly sequences. In Argentina, these strains occurred both in cattle and meat, and 50% of them carried stx2/stx2vh-a genes, whereas in Brazil the O157 strains were isolated from animals, and most harbored the stx2vh-a sequence. At least 13 different O:H serotypes were identified among the non-O157 strains studied, with serotype O113:H21 being found in both countries. All but one non-O157 strains did not carry eae gene, but EHEC-hlyA gene was found in 85.7% of them, and the stx2 genotype was also more prevalent in Argentina than in Brazil (P<0.01), where stx1 alone or in association was most common (68.8%). One STEC strain isolated from a calf in Brazil harbored the new variant referred to as stx2-NV206. PFGE analysis showed that STEC O157 strains were grouped in four clusters. One Brazilian strain was considered possibly related (> or =80%) to Argentinean strains of cluster I. Differences in the pathogenic potential, especially in regard to serotypes and stx genotypes, were observed among the STEC strains recovered from animals and food in both countries. 相似文献
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The relationship of the urease operon in the highly virulent O149 porcine enterotoxigenic Escherichia coli (ETEC) strain Ro8 to a genomic island (GI) homologous to O island (OI) 48 of O157 enterohemorrhagic E. coli (EHEC) strain EDL933 was investigated. Eighty-four of 84 O149:H10 strains were urease positive whereas 44 of 44 O149:H43 porcine ETEC strains were urease-negative. Seventeen of 17 O149:H10 strains that were tested possessed the OI-48 homolog whereas 24 of 24 O149:H43 strains lacked this OI. Transposon insertions in lipB or guaA genes in strain Ro8 eliminated urease activity while insertions in the caiF gene increased urease activity. When the O149 ure operon was cloned on a high copy number plasmid, urease expression was increased approximately 11-fold in Ro8 and 83-fold in O157 strain EDL933 compared with that in the wild type Ro8. The O149 urease activity was expressed despite the presence of the same premature stop codon in ureD that is present in ure+ O157:H7 strains that are urease-negative. The ure operon in Ro8 consists of 4 893 nucleotides with 99% identity with the ure operons in EHEC O157:H7 strains EDL933 and Sakai, and is part of a GI similar to GI-48 of strain EDL933. This OI, designated OI-48149 , is inserted in the serX tRNA gene in strain Ro8 and contains genes for urease, tellurite resistance, iha and an AIDA-I-like adhesin. The presence of a homolog of the O157:H7 OI-48 in highly virulent O149 porcine ETEC suggests that this OI may contribute to establishment of the bacteria in the intestine. 相似文献
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ZHENG Xiaofeng ZHANG Yan LIU Yingyu ZHU Mingyue ZHENG Xiaoqin LU Wei JIANG Jindou ZHU Menghan 《畜牧兽医学报》1956,51(10):2518-2527
Shiga toxin-producing Escherichia coli(STEC) is a new class of highly pathogenic food-borne pathogens carrying a prephage encoding one or two Shiga toxin genes. It has become an important public health issue that threatens human health. The present work aimed to characterize STEC strains isolated from cattle and sheep at various stages, in parts of Xinjiang, in terms of the presence of prevalence, genetic diversity, and antimicrobial susceptibility to 17 common antibiotics. Through amplification of four virulence genes (stx1, stx2, eae, hlyA)by PCR and ERIC-PCR genotyping to detection STEC isolates. In the present study, a total of 64 STEC strains were isolated from 431 samples from slaughterhouses, farms and markets. Of these, 31 (48.4%) of the isolates harbored stx1 + stx2, and only 29 (45.3%) of the isolates possessed stx1, only 4 (6.3%) of the isolates harbored stx2, and 1 isolates harbored all the 4 virulence genes. Drug sensitivity tests found that STEC strains displayed 7 antimicrobial resistance to midecamycin(61%), cephalothin(4.7%), cefoxitin(4.7%), ampicillin(3.1%), piperacillin(1.6%), tobramycin(1.6%), cefazolin(1.6%). The ERIC-PCR results showed a polymorphic distribution, which was divided into two clusters of A (36 strains) and B (28 strains). STEC strains isolated from cattle and sheep at various stages, in parts of Xinjiang, some of which might have the potential to cause food contamination and human diseases. 相似文献