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1.
为了探讨牛源产志贺毒素大肠杆菌(Shiga toxin-producing Escherichia coli,STEC)分离株在毒力基因分布和遗传进化方面与人源EHEC O157菌株之间的关系,本试验选择收集来自江苏某奶牛场的STEC菌株18株以及人源、羊源、猪源、禽源STEC参考菌株9株,参照美国疾病预防控制中心PulseNet推荐的方法,运用XbaⅠ酶进行酶切并完成脉冲肠凝胶电泳(PFGE)分型和聚类分析;同时对部分STEC菌株进行毒力基因检测。结果表明,经毒力基因检测,不同来源的O157菌株毒力基因分布不尽相同,其中牛源STEC O157与参考株EHEC O157∶H7(EDL933W)的基因排谱最为相近;牛源STEC O18和O26的基因排谱与参考株EHEC O157∶H7(EDL933W)类似,但存在部分基因的缺失。对27株不同来源的STEC分离株进行PFGE,产生了22种不同的酶切图谱。总体来看,不同来源的STEC Dice相似性系数在72%~100%之间。牛源O157分离株与猪源及禽源O157菌株的相似度偏低,而与两株人源O157分离株的相似度偏高,Dice相似性系数在83%~95%之间,牛源O26(克隆群Ⅶ、Ⅷ)与人源O157的相似性系数 > 82%。显然,从牛群中分离到的部分STEC菌株与人源EHEC O157具有较近的遗传进化关系。  相似文献   

2.
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   

3.
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   

4.
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   

5.
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   

6.
《中国兽医学报》2019,(3):438-444
为了研究新疆部分地区牛源STEC在牛粪便、胴体、饲料和饮水中的存在情况,揭示其在牛场各个环节中的分布规律及致病的可能性。本试验于2015年9月至2017年1月期间,分别从牛场、活畜交易市场和牛屠宰加工厂,无菌采集牛肛拭子、粪便、胴体拭子、饲料和饮水样本,EC肉汤增菌后,用常规方法结合PCR(16S rRNA)技术进行大肠杆菌的分离鉴定,再用PCR检测大肠杆菌分离株的Stx1、Stx2基因;用腹腔注射EC肉汤增菌原液的方法进行动物攻毒试验,确定分离菌株的致病性。结果显示,从9个牛场、1个活畜交易市场和1个屠宰加工厂中共采集到1 453份样本,其中STEC阳性样本为217份(14.9%,217/1453);新疆伊犁、博乐、石河子、昌吉、五家渠及乌鲁木齐的STEC样本阳性率分别为9.9%,19.9%,4.0%,26.2%,43.0%,7.5%;春季(3~5月)、夏季(6~8月)、秋季(9~11月)和冬季(12~次年2月)的STEC样本阳性率分别为27.3%(147/538),0.8%(2/247),13.0%(49/376)和6.5%(19/292);肛拭子、胴体表面拭子、粪便、饲料和饮水样本STEC阳性率分别为19.4%(190/978),8.3%(4/48),6.7%(16/239),1.1%(1/94)和6.4%(6/94);共分离到468株STEC菌株,其中132株携带Stx1,122株携带Stx2,214株同时携带Stx1和Stx2;攻毒试验表明同时携带Stx1、Stx2基因的菌株对小白鼠有致病性。结果表明,牛源STEC普遍存在于所检测的牛场、活畜交易市场和屠宰加工厂,肛拭子样本阳性率最高,而牛胴体被污染的情况较严重;春季是STEC的排菌高峰期;分离到的牛源STEC菌株同时携带Stx1和Stx2的菌株最多,而单独携带Stx1或Stx2的菌株分别约为25%;在制定防控牛源STEC的措施时,要尽量避免牛粪便对胴体的污染,春季更要注意牛粪便的无害化处理,对小白鼠攻毒试验结果发现,分离菌株对人有潜在致病性。  相似文献   

7.
为了调查青岛地区牛源产志贺毒素大肠杆菌(STEC)的流行情况和耐药情况,本试验对保存的780株牛源大肠杆菌进行PCR鉴定、血清分型以及药敏试验,经测序确认共检出27株STEC,随后对检出的STEC进行了30种血清型的鉴定,鉴定出14株共9种血清型,占定型菌株的51.9%,其中以O78、O2、O45血清型为主且O78占定型菌株的14.8%,为优势血清型。药敏试验结果显示,27株STEC对四环素、氨苄西林的耐药率分别为88.9%和81.5%;对氟苯尼考、磷霉素、恩诺沙星、萘啶酸、头孢噻呋、链霉素、甲氧苄啶-磺胺甲噁唑的耐药率介于11.1%~59.3%;对卡那霉素具有较高敏感性,耐药率仅为7.4%;所有受试菌株均对阿米卡星、环丙沙星和左氧氟沙星敏感。本试验结果对青岛地区牛源STEC的治疗提供理论依据。  相似文献   

8.
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   

9.
为了解中国牦牛产志贺毒素的大肠杆菌(Shiga toxin-producing Escherichia coli, STEC)中主要黏附因子的流行情况,采用PCR方法对来自四川甘孜阿坝等地区健康牦牛的70株STEC的eae、saa、iha 3种与黏附相关的毒力基因进行检测,并对部分含有相关黏附因子的阳性分离株的毒力基因进行了克隆及序列分析。结果显示,牦牛STEC中saa、iha的阳性率分别为71.42%(50/70)和78.57%(55/70),无eae基因序列(0/70),saa、iha的测序结果与GenBank上序列的同源性分别为100%和93%~99%。健康牦牛分离的STEC无LEE毒力岛编码eae,其他的一些与黏附相关的主要毒力基因saa、iha的携带率较高。  相似文献   

10.
某定点肉牛屠宰场中非O157致病性STEC的分离鉴定   总被引:1,自引:1,他引:0  
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O157STEC。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6h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O157STEC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   

11.
Fecal samples from 67 3–5-months-old calves with diarrhea were screened for the presence of shiga toxin-producing Escherichia coli (STEC). Several accessory virulence factors genes were also tested. Among 192 E.coli isolates tested, 15 (7.6%) were found to harbour the shiga toxin 1 or 2 (stx1 or stx2) genes. The stx2-carrying samples were further subtyped by PCR for the stx2c, stx2d, and stx2e toxin variants. It was shown that stx2-positive bacteria mainly possessed the stx2c shiga toxin type gene. The enterohemolysin (hlyA) and intimin (eae) genes were found in seven (46.7%) STEC strains whereas the cytotoxic necrotizin factor 1 and 2 or the P fimbrial genes were detected in two isolates only. This study confirmed that calves are a reservoir of STEC strains (with all pathogenicity genes) that may be virulent for humans.  相似文献   

12.
The aims of this study were to investigate prevalence, O-genotype, and virulence gene profile including Shiga toxin (Stx) 2 gene-subtype of Stx-producing Escherichia coli (STEC) in beef cattle from the Bahía Blanca in Argentina. Rectal swabs were collected from 283 beef cattle in 2012. stx genes were detected in 90 (32%) out of the 283 rectal swabs by stx gene-specific PCR assay. The positive cases were 13 with stx1, 58 with stx2, and 19 with both stx1 and stx2. Among 90 stx gene-positive samples, 45 STEC strains were isolated, which included 3 stx1, 34 stx2, and eight stx1 and stx2 genes positive isolates. O-genotyping grouped 45 STEC strains into 19 different O-genotypes such as Og8, Og145, Og171, Og185 (4 from each), Og22, Og153, Og157 (3 from each) and others. Various stx2 gene-subtypes were identified in 42 STEC strains: 13 positive cases for stx2a, 11 for stx2c, 3 for stx2g, 10 for stx2a and stx2d, 4 for stx2a and stx2c, and 1 for stx2b, stx2c and stx2g. efaI gene, generally prevalent in clinical strains, was detected in relatively high in the STEC strains. These data suggest that stx2a and stx2c were distributed not only in O145 and O157 but also in minor O-genotypes of STEC in Argentina.  相似文献   

13.
Shiga toxin-producing Escherichia coli (STEC) strains isolated from healthy cattle (O111:NM, seven strains; O111:H8, three strains) in Brazil were studied and compared to previously characterized human strains in regard to their phenotypic and genotypic characteristics to evaluate their pathogenic potential. Most bovine STEC O111 strains were isolated from dairy calves, and strains with genotypes stx1 alone and stx1/stx2 (variant stx2) occurred in different regions. Irrespective of the stx genotype, all strains were positive for eae theta, alpha variants of tir, espA and espB, and for ler, qseA, iha, astA and efa1 genes. Only one strain was negative for EHEC-hlyA and all strains were negative for iha, saa and espP genes and for EAF and bfpA, genetic markers of EPEC. Except for the presence of stx2, bovine strains showed the same profile of putative virulence genes found among the human strains. Similar biochemical behavior was identified among the strains analysed. Two bovine STEC strains produced the localized adherence (LA) phenotype in 6-h tests with Caco-2 (human enterocyte) cells. Intimate attachment (judged by the FAS test) was found in 9 out of 10 bovine strains as it was observed for the human STEC strains. RAPD-PCR analysis showed two distinct RAPD groups among the STEC O111 strains examined. Despite the relative low frequency of STEC O111 strains recovered from cattle no differences in their pathogenic potential were observed compared to some strains isolated from human diarrhea, suggesting that healthy cattle may be a potential source of infection for humans in Brazil.  相似文献   

14.
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   

15.
Rectal content grab samples were collected from 2436 beef cattle reared on 406 beef farms in Japan between November 2007 and March 2008. STEC strains O157 and O26 were isolated from 110 (27.1%) and 7 (1.7%) farms, respectively. Farms that tested positive for STEC O157 were located in 35 out of all 47 Japanese prefectures. This indicates that STEC O157 strains are widespread on beef farms nationwide. Of the 2436 tested beef cattle, 218 (8.9%) and 10 (0.4%) had STEC strains O157 and O26 in the rectal content, respectively. The most common Shiga toxin genes detected in the isolated STEC O157 strains were: stx(2c) alone (32.1%), stx(2)/stx(2c) (27.2%), and stx(1)/stx(2) (21.8%). Almost all of the STEC O157 and STEC O26 strains expressed Shiga toxins (Stx). Most of the STEC O157 and STEC O26 strains possessed eaeA and EHEC-hlyA. These results strongly suggest that STEC strains O157 and O26 from beef cattle would be pathogenic to humans. Therefore, it is important to reduce STEC strains O157 and O26 in beef cattle in order to prevent foodborne disease caused by STEC. The presence of dogs and/or cats on a farm was significantly (P=0.02) associated with the prevalence of STEC O157. More research is needed to clarify the role of dogs and cats.  相似文献   

16.
Pets can be reservoirs of Shiga toxin-producing Escherichia coli (STEC) strains. The aim of this study was to examine nine strains belonging to several serotypes (O91:H21, O91:H16, O178:H19, O8:H19, O22:H8, O22:HNT, ONT:H8), previously recovered from cats or dogs. To this end, we assessed a set of additional virulence genes (stx(2) subtype, subAB, ehxA, eae and saa), cytotoxic activity, and genetic relationships with strains isolated from cattle, meat and humans using pulsed-field gel electrophoresis (PFGE). Most of the isolates carried the stx(2) and/or stx(2vh-b) sequences, while only the O91:H21 isolate presented the mucus-activatable stx(2d) variant, as confirmed by sequencing the genes of subunits A and B. All the strains showed cytotoxic activity in cultured cells. One of the two O178:H19, selected for its high level of cytotoxicity in Vero cells, showed the ability to cause functional alterations in the human colon mucosa in vitro. None of the strains possessed the subAB, eae or saa genes and only the strains belonging to serotype O8:H19 carried the ehxA gene. The isolates shared 90-100% similarity by PFGE to epidemiologically unrelated strains of the corresponding serotypes recovered from cattle, meat or humans. Our results demonstrate that dogs and cats may have a role in the infection of humans by STEC, probably serving as a vehicle for bovine strains in the cycle of human infection, and thus emphasize the health risks for owners and their families.  相似文献   

17.
Thirty-one shiga toxin-producing (STEC) and 6 enteropathogenic Escherichia coli (EPEC) were isolated from 87 raw yak milk and 63 'churpi' samples. Of 18 stx(1) positive isolates (48.6%), 14 carried stx(1c) (77.7%). Subtyping of 28 stx(2) positive isolates (75.7%) revealed the presence of stx(2c) (9, 32.1%), stx(2d) (3, 10.7%), stx(2e) (1, 3.57%) and stx(2f) (3, 10.7%) variants. Furthermore, intimin (eaeA), enterohaemolysin (ehxA), autoagglutinating adhesin (saa), iha (adherence conferring protein), efa1 (EHEC factor for adherence), bundle forming pilli (bfpA) and toxB (type III secreted protein encoded on LEE Island, similar to toxin B of Clostridium difficile) genes were detected in 14, 16, 12, 4, 3, 2 and 2 isolates, respectively. Univariate and multivariate analysis depicted that both stx(1) and stx(2) or their variants were more likely to occur in isolates from Arunachal Pradesh (p<0.04) rather than Sikkim. Dendogram constructed on the basis of RAPD and ERIC PCR profile distributed the STEC and EPEC isolates in separate clusters irrespective of their sources and serotypes. The STEC and EPEC isolates exhibited resistance against erythromycin, amikacin, azithromycin, amoxicillin, ampicillin+cloxacillin, cephalothin, furazolidone, gentamicin, kanamycin, streptomycin and tetracycline. This is the first ever report on occurrence and characterization of STEC and EPEC isolated from yak milk and milk products.  相似文献   

18.
Faecal samples from 76 diarrhoeic calves belonging to 36 farms located in the Pampas plain, Argentina, were examined for Shiga toxin-producing Escherichia coli (STEC). A total of 15 STEC strains were isolated from 12 (15.8%) calves which came from six different farms. All stx positive strains assayed by PCR were also positives in the Vero cell cytotoxicity test. The majority (60.0%) of the STEC strains carried the stx(1) gene. Twelve (80.0%) of the STEC isolates which belonged to serotypes O5:H- (n = 4), O26:H11 (n = 4), O26:H- (n = 1), O111:H- (n = 2), and O123:H38 (n = 1) were also enterohaemolysin (EHly) positive and carried the gene encoding for intimin (eae). All the stx positive strains were negative for the bfpA gene. Localized adherence to HEp-2 cells were observed in 83.3% of the eae+ STEC strains. STEC belonging to serotype O5:H- showed atypical biochemical properties, including urease production. Urease was also produced by two strains belonging to serotypes O153:H? and non-typeable, respectively. Resistance to three or more antibiotics was observed in 12 (80.0%) of the STEC isolates. Most of the serotypes of STEC recovered in this survey carried virulence traits that are associated with increased human and bovine pathogenicity. The present study shows that highly virulent STEC strains are being shed by diarrhoeic calves from farms located in a high incidence area of human STEC infections.  相似文献   

19.
PROBLEM ADDRESSED: Shiga toxin-producing Escherichia coli (STEC), have emerged as food poisoning pathogens which can cause severe diseases in humans. OBJECTIVE: The aim of this study was to determinate the serotypes and virulence genes of STEC strains isolated from sheep in Spain, with the purpose of determining whether sheep represent a potential source of STEC pathogenic for humans. METHODS AND APPROACH: Faecal swabs obtained from 697 healthy lambs on 35 flocks in Spain during the years 2000 and 2001 were examined for STEC using phenotypic (Vero cells) and genotypic (PCR) methods. RESULTS: STEC O157:H7 strains were isolated from seven (1%) animals in six flocks, whereas non-O157 STEC strains were isolated from 246 (35%) lambs in 33 flocks. A total of 253 ovine STEC strains were identified in this study. PCR showed that 110 (43%) strains carried stx(1) genes, 10 (4%) possessed stx(2) genes and 133 (53%) both stx(1) and stx(2). Enterohaemolysin (ehxA) and intimin (eae) virulence genes were detected in 120 (47%) and in 9 (4%) of the STEC strains. STEC strains belonged to 22 O serogroups and 44 O:H serotypes. However, 70% were of one of these six serogroups (O6, O91, O117, O128, O146, O166) and 71% belonged to only nine serotypes (O6:H10, O76:H19, O91:H-, O117:H-, O128:H-, O128:H2, O146:H21, O157:H7, O166:H28). A total of 10 new O:H serotypes not previously reported in STEC strains were found in this study. Seven strains of serotype O157:H7 possessed intimin type gamma1, and two strains of serotype O156:H- had the new intimin zeta. STEC O157:H7 strains were phage types 54 (four strains), 34 (two strains) and 14 (one strain). CONCLUSIONS: This study confirms that healthy sheep are a major reservoir of STEC pathogenic for humans. However, because the eae gene is present only in a very small proportion of ovine non-O157 STEC, most ovine strains may be less pathogenic.  相似文献   

20.
We investigated the prevalence of Shiga toxin-producing Escherichia coli (STEC) in 568 healthy domestic animals (buffaloes, cattle, and goats) from 98 farms in the central region of Vietnam. The aims of this study were to determine if the prevalence of STEC in South East Asia is similar to that in other parts of the world, to characterize the virulence gene profiles from the recovered STEC and to determine if the recovered STEC belong to serotypes commonly associated with human disease. STEC and intimin-positive strains were recovered from 27% of buffaloes, 23% of cattle, and 38.5% of goats. Seventy percent of buffalo farms, 60% of cattle farms and 100% goat farms were positive for STEC. Of 170 STEC strains, 99 carried both stx1 and stx2 genes, 36 carried the stx2 gene, and 35 carried the stx1 gene. The eae gene was found in six caprine isolates, but not in buffalo or bovine isolates. Among 173 E. coli strains (170 STEC and 3 intimin-positive), 110 carried the ehxA gene, 106 possessed the saa gene. Further characterization of stx subtypes demonstrated that among 134 stx1-containing isolates, 107 belonged to the stx1c subtype and 27 were the stx1 subtype. Of the 132 stx2-containing isolates, 36 were stx2, 34 were stx2c, 43 were stx2d subtype, 3 belonged to stx2g, and 16 strains were stx2d(act). The stx2c variant was dominant in strains isolated from buffalo while the stx2d variant occurred more frequently in caprine isolates. Only 9 (5%) STEC strains contained genes encoding for serotypes O26, O91, O121, O145, and O157 LPS, which are more frequently associated with human infections. The results of this study provide data for understanding of epidemiology of STEC among domestic animals in Vietnam and indicate that buffaloes are also an important reservoir of STEC.  相似文献   

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