Characterization of Shiga Toxin-Producing Escherichia coli O26 Strains and Establishment of Selective Isolation Media for These Strains

Reiji Hiramatsu; Masakado Matsumoto; Yoshio Miwa; Yasumoto Suzuki; Makoto Saito; Yutaka Miyazaki

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Characterization of Shiga Toxin-Producing Escherichia coli O26 Strains and Establishment of Selective Isolation Media for These Strains

机译：产志贺毒素的大肠杆菌O26菌株的表征及这些菌株的选择性分离培养基的建立

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We characterized the carbohydrate-fermenting ability of 31 strains of Shiga toxin-producing Escherichia coli (STEC) O26 isolated from diarrhea patients in Aichi Prefecture, Japan, in order to establish selective isolation media for these strains. None of the 31 STEC O26 strains (24 O26:H11, 7 O26:H?) fermented rhamnose, whereas all of the other 108 STEC strains (100 O157, 8 O111) and all of the non-STEC strains except one (i.e., 58 of 59) fermented rhamnose. The great majority of the STEC O26 strains (96.8% [30 of 31]) showed very high resistance to potassium tellurite (MIC ≥ 50 μg/ml), whereas the majority of the non-STEC strains (72.9% [43 of 59]) showed very high sensitivity (MIC ≤ 1.56 μg/ml) to this compound. Accordingly, we developed a rhamnose-MacConkey (RMAC) medium in which the lactose in MacConkey medium was replaced by rhamnose, and cefixime-tellurite-RMAC (CT-RMAC) medium in which potassium tellurite (2.5 mg/liter) and cefixime (0.05 mg/liter) were added to RMAC. All of the STEC O26 strains generated colorless (rhamnose-nonfermented) colonies on both media; the vast majority of selected E. coli strains (95.7% [89 of 93; including 26 STEC O157, 8 STEC O111]), other than STEC O26, generated red colonies on RMAC, and most of the non-STEC strains (84.7% [50 of 59]) did not grow on CT-RMAC. We demonstrate that both the RMAC and the CT-RMAC media can be used for the isolation of STEC O26 and that CT-RMAC has better specificity for the routine isolation for STEC O26 in a laboratory.

机译：我们建立了从日本爱知县腹泻患者中分离出的31株产志贺毒素的大肠杆菌（STEC）O26的碳水化合物发酵能力，以建立针对这些菌株的选择性分离培养基。 31个STEC O26菌株（24 O26：H11，7 O26：H？）均未发酵鼠李糖，而所有其他108个STEC菌株（100 O157，8 O111）以及除一个（即， 59中的58）发酵鼠李糖。绝大多数STEC O26菌株（96.8％[31 of 30]）表现出对亚碲酸钾的极高抗性（MIC≥50μg/ ml），而大多数非STEC菌株（72.9％[59 of43]））对这种化合物具有很高的灵敏度（MIC≤1.56μg/ ml）。因此，我们开发了一种鼠李糖-MacConkey（RMAC）培养基，其中用鼠李糖替代了MacConkey培养基中的乳糖，以及一种其中使用亚碲酸钾（2.5 mg /升）和头孢克肟（0.05毫克/升）添加到RMAC。所有STEC O26菌株在两种培养基上均产生无色（鼠李糖非发酵）菌落。绝大多数选定的 E。除STEC O26外，大肠埃希菌菌株（95.7％[93个中的89个;包括26个STEC O157、8个STEC O111]）在RMAC上产生红色菌落，并且大多数非STEC菌株（84.7％[50。 59]）未在CT-RMAC上生长。我们证明，RMAC和CT-RMAC介质均可用于STEC O26的分离，并且CT-RMAC在实验室中对STEC O26的常规分离具有更好的特异性。 展开▼

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《Journal of Clinical Microbiology》 |2002年第3期|共4页

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Reiji Hiramatsu; Masakado Matsumoto; Yoshio Miwa; Yasumoto Suzuki; Makoto Saito; Yutaka Miyazaki;
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中图分类医学微生物学（病原细菌学、病原微生物学）;

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Characterization of Shiga Toxin-Producing Escherichia coli O26 Strains and Establishment of Selective Isolation Media for These Strains

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