使用荧光探针通过定量PCR对古菌群落成员进行快速检测和定量分析。
Rapid detection and quantification of members of the archaeal community by quantitative PCR using fluorogenic probes.
作者信息
Takai K, Horikoshi K
机构信息
Deep-sea Microorganisms Research Group, Japan Marine Science & Technology Center, Yokosuka 237-0061, Japan.
出版信息
Appl Environ Microbiol. 2000 Nov;66(11):5066-72. doi: 10.1128/AEM.66.11.5066-5072.2000.
Abstract
We describe a rapid, reproducible, and sensitive method for detection and quantification of archaea in naturally occurring microbial communities. A domain-specific PCR primer set and a domain-specific fluorogenic probe having strong and weak selectivity, respectively, for archaeal rRNA genes (rDNAs) were designed. A universal PCR primer set and a universal fluorogenic probe for both bacterial and archaeal rDNAs were also designed. Using these primers and probes, we demonstrated that detection and quantification of archaeal rDNAs in controlled microbial rDNA assemblages can be successfully achieved. The system which we designed was also able to detect and quantify archaeal rDNAs in DNA samples obtained not only from environments in which thermophilic archaea are abundant but also from environments in which methanogenic archaea are abundant. Our findings indicate that this method is applicable to culture-independent molecular analysis of microbial communities in various environments.
摘要
我们描述了一种用于检测和定量自然存在的微生物群落中古菌的快速、可重复且灵敏的方法。设计了一组针对古菌rRNA基因(rDNA)分别具有强选择性和弱选择性的结构域特异性PCR引物以及一种结构域特异性荧光探针。还设计了一组用于细菌和古菌rDNA的通用PCR引物以及一种通用荧光探针。使用这些引物和探针,我们证明了在受控的微生物rDNA组合中能够成功实现古菌rDNA的检测和定量。我们设计的系统还能够检测和定量不仅来自嗜热古菌丰富的环境,而且来自产甲烷古菌丰富的环境的DNA样品中的古菌rDNA。我们的研究结果表明,该方法适用于对各种环境中微生物群落进行不依赖培养的分子分析。
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