AFSSA (French Food Safety Agency), Laboratory for Study and Research on Food Quality and Processes (LERQAP), 23 Av du Général De Gaulle, Fr-94706 Maisons-Alfort, France.
Int J Food Microbiol. 2010 Sep 1;142(3):318-29. doi: 10.1016/j.ijfoodmicro.2010.07.010. Epub 2010 Jul 14.
A micro-array has been developed, based on the GeneDisc(R) array, for the genetic identification of 12 O-types and 7 H-types of Shiga toxin-producing Escherichia coli (STEC) including the most clinically relevant enterohemorrhagic E. coli (EHEC) serotypes. The genes selected for determination of the O antigens (rfbE(O157), wzx(O26), wzx(O103), wbd1(O111), ihp1(O145), wzx(O121), wzy(O113), wzy(O91), wzx(O104), wzy(O118), wzx(O45), and wbgN(O55)) and H-types (fliC(H2), fliC(H7), fliC(H8), fliC(H11), fliC(H19), fliC(H21), and fliC(H28)) showed a high specificity and concordance with serology. The micro-array also had a high specificity for EHEC-associated virulence factors, including Shiga toxins 1 and 2 (stx1 and stx2), intimin (eae), enterohemolysin (ehxA), serine protease (espP), catalase peroxidase (katP), the type II secretion system (etpD), subtilase cytotoxin (subA), autoagglutinating adhesin (Saa) and type III secreted effectors encoded in the genomic islands OI-122 (ent/espL2, nleB, and nleE) and OI-71 (nleF, nleH1-2, and nleA). The eae gene was detected in all typical EHEC strains, and the pattern of nle genes encoded in OI-71 and OI-122 was found to be closely associated with certain serotypes of typical EHEC and emerging EHEC strains. Virulence plasmid associated genes such as katP, espP, and etpD were more common in EHEC than in STEC strains; this supports their association with virulence. This array constitutes a valuable approach for the identification of STEC strains with a high potential for human virulence.
已经开发出一种基于 GeneDisc(R)阵列的微阵列,用于遗传鉴定 12 种 O 型和 7 种 H 型产志贺毒素大肠杆菌(STEC),包括最具临床相关性的肠出血性大肠杆菌(EHEC)血清型。选择用于确定 O 抗原(rfbE(O157)、wzx(O26)、wzx(O103)、wbd1(O111)、ihp1(O145)、wzx(O121)、wzy(O113)、wzy(O91)、wzx(O104)、wzy(O118)、wzx(O45)和 wbgN(O55))和 H 型(fliC(H2)、fliC(H7)、fliC(H8)、fliC(H11)、fliC(H19)、fliC(H21)和 fliC(H28))的基因具有高度特异性和与血清学的一致性。微阵列还对与 EHEC 相关的毒力因子具有高度特异性,包括志贺毒素 1 和 2(stx1 和 stx2)、肠侵袭蛋白(eae)、肠出血性溶血素(ehxA)、丝氨酸蛋白酶(espP)、过氧化氢酶过氧化物酶(katP)、II 型分泌系统(etpD)、亚单位细胞毒素(subA)、自聚集黏附素(Saa)和在基因组岛 OI-122(ent/espL2、nleB 和 nleE)和 OI-71(nleF、nleH1-2 和 nleA)中编码的 III 型分泌效应子。所有典型的 EHEC 菌株均检测到 eae 基因,OI-71 和 OI-122 中编码的 nle 基因的模式与某些典型 EHEC 和新兴 EHEC 菌株的血清型密切相关。与毒力质粒相关的基因,如 katP、espP 和 etpD,在 EHEC 中的出现频率高于 STEC 菌株;这支持了它们与毒力的关联。该阵列构成了一种鉴定具有高人类毒力潜力的 STEC 菌株的有价值方法。
