快速浓缩和分子富集方法用于灵敏检测饮用水样中的大肠杆菌和志贺氏菌属。

Rapid concentration and molecular enrichment approach for sensitive detection of Escherichia coli and Shigella species in potable water samples.

机构信息

Centre de Recherche en Infectiologie de l'Université Laval, Centre de Recherche du CHUQ, 2705 Laurier Blvd., Québec City, Québec, Canada.

出版信息

Appl Environ Microbiol. 2011 Sep;77(17):6199-207. doi: 10.1128/AEM.02337-10. Epub 2011 Jul 15.

DOI:10.1128/AEM.02337-10

PMID:21764965

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3165386/

Abstract

In this work, we used a rapid, simple, and efficient concentration-and-recovery procedure combined with a DNA enrichment method (dubbed CRENAME [concentration and recovery of microbial particles, extraction of nucleic acids, and molecular enrichment]), that we coupled to an Escherichia coli/Shigella-specific real-time PCR (rtPCR) assay targeting the tuf gene, to sensitively detect E. coli/Shigella in water. This integrated method was compared to U.S. Environmental Protection Agency (EPA) culture-based Method 1604 on MI agar in terms of analytical specificity, ubiquity, detection limit, and rapidity. None of the 179 non-E. coli/Shigella strains tested was detected by both methods, with the exception of Escherichia fergusonii, which was detected by the CRENAME procedure combined with the E. coli/Shigella-specific rtPCR assay (CRENAME + E. coli rtPCR). DNA from all 90 E. coli/Shigella strains tested was amplified by the CRENAME + E. coli rtPCR, whereas the MI agar method had limited ubiquity and detected only 65 (72.2%) of the 90 strains tested. In less than 5 h, the CRENAME + E. coli rtPCR method detected 1.8 E. coli/Shigella CFU whereas the MI agar method detected 1.2 CFU/100 ml of water in 24 h (95% confidence). Consequently, the CRENAME method provides an easy and efficient approach to detect as little as one Gram-negative E. coli/Shigella cell present in a 100-ml potable water sample. Coupled with an E. coli/Shigella-specific rtPCR assay, the entire molecular procedure is comparable to U.S. EPA Method 1604 on MI agar in terms of analytical specificity and detection limit but provides significant advantages in terms of speed and ubiquity.

摘要

在这项工作中，我们使用了一种快速、简单、高效的浓缩和回收程序，结合一种 DNA 富集方法（称为 CRENAME [微生物颗粒的浓缩和回收、核酸提取和分子富集]），我们将其与针对 tuf 基因的大肠杆菌/志贺氏菌实时 PCR（rtPCR）检测方法相结合，以灵敏地检测水中的大肠杆菌/志贺氏菌。与美国环保署（EPA）基于培养的方法 1604 相比，该综合方法在 MI 琼脂上在分析特异性、普遍性、检测限和快速性方面进行了比较。除了易弗格森氏菌外，两种方法均未检测到 179 种非大肠杆菌/志贺氏菌菌株，而易弗格森氏菌可通过 CRENAME 程序与大肠杆菌/志贺氏菌特异性 rtPCR 检测方法（CRENAME+大肠杆菌 rtPCR）检测到。CRENAME + 大肠杆菌 rtPCR 可扩增所有 90 株大肠杆菌/志贺氏菌菌株的 DNA，而 MI 琼脂法的普遍性有限，仅检测到 90 株试验菌株中的 65 株（72.2%）。在不到 5 小时的时间内，CRENAME + 大肠杆菌 rtPCR 方法检测到 1.8 个大肠杆菌/志贺氏菌 CFU，而 MI 琼脂方法在 24 小时内检测到 1.2 CFU/100 毫升水（95%置信区间）。因此，CRENAME 方法提供了一种简单高效的方法，可以检测到 100 毫升饮用水样本中存在的低至一个革兰氏阴性大肠杆菌/志贺氏菌细胞。与大肠杆菌/志贺氏菌特异性 rtPCR 检测方法相结合，整个分子程序在分析特异性和检测限方面与美国 EPA 方法 1604 相当，但在速度和普遍性方面具有显著优势。

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