土壤中大肠杆菌16S rRNA基因PCR扩增的选择性和灵敏方法。
Selective and sensitive method for PCR amplification of Escherichia coli 16S rRNA genes in soil.
作者信息
Sabat G, Rose P, Hickey W J, Harkin J M
机构信息
Department of Bacteriology, University of Wisconsin-Madison, Madison, Wisconsin 53706-1299, USA.
出版信息
Appl Environ Microbiol. 2000 Feb;66(2):844-9. doi: 10.1128/AEM.66.2.844-849.2000.
Abstract
A set of PCR primers targeting 16S rRNA gene sequences was designed, and PCR parameters were optimized to develop a robust and reliable protocol for selective amplification of Escherichia coli 16S rRNA genes. The method was capable of discriminating E. coli from other enteric bacteria, including its closest relative, Shigella. Selective amplification of E. coli occurred only when the annealing temperature in the PCR was elevated to 72 degrees C, which is 10 degrees C higher than the optimum for the primers. Sensitivity was retained by modifying the length of steps in the PCR, by increasing the number of cycles, and most importantly by optimizing the MgCl(2) concentration. The PCR protocol developed can be completed in less then 2 h and, by using Southern hybridization, has a detection limit of ca. 10 genomic equivalents per reaction. The method was demonstrated to be effective for detecting E. coli DNA in heterogeneous DNA samples, such as those extracted from soil.
摘要
设计了一组靶向16S rRNA基因序列的PCR引物,并优化了PCR参数,以开发一种用于选择性扩增大肠杆菌16S rRNA基因的稳健可靠方案。该方法能够区分大肠杆菌与其他肠道细菌,包括其亲缘关系最近的志贺氏菌。仅当PCR中的退火温度升高到72℃时才会发生大肠杆菌的选择性扩增,这比引物的最佳温度高10℃。通过改变PCR步骤的长度、增加循环次数,最重要的是通过优化MgCl₂浓度来保持灵敏度。所开发的PCR方案可在不到2小时内完成,并且通过Southern杂交,每个反应的检测限约为10个基因组当量。该方法被证明对检测异源DNA样品(如从土壤中提取的样品)中的大肠杆菌DNA有效。
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