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引用次数: 12
摘要
与浮游生长的相同菌株相比,生长在生物膜中的细菌通常表达不同的基因子集。定量逆转录酶实时PCR (Quantitative reverse transcripase real time PCR, qRT-PCR)可以有效地定量细菌在生物膜中生长的特定基因的RNA转录物数量。qRT-PCR具有较大的动态范围,可用于验证从微阵列获得的基因表达数据。此外,qRT-PCR是敏感的,因此可用于定量只有少量生物材料可用的生物膜样品的基因表达,如通过激光捕获显微解剖显微镜(LCMM)获得的样品。最常用的qRT-PCR方法是SYBR Green和双标记探针(Taqman)方法。这两种方法都使用逆转录将mRNA转化为cDNA,然后进行cDNA的PCR扩增。本文介绍了qRT-PCR涉及的各个方面的步骤,包括:(1)引物设计,(2)引物和探针性能测试,(3)使用Corbett Rotor-Gene系统的qRT-PCR,以及(4)数据导出和分析。
INTRODUCTIONBacteria growing in biofilms often express a different subset of genes compared to the same strains growing planktonically. Quantitative reverse transcriptase real time PCR (qRT-PCR) can be used effectively to quantify the number of RNA transcripts of specific genes from bacteria growing in biofilms. qRT-PCR has a large dynamic range and may be used to verify gene expression data obtained from microarrays. In addition, qRT-PCR is sensitive, and therefore may be used to quantify gene expression from biofilm samples where only a small amount of biological material is available, as in samples obtained by laser capture microdissection microscopy (LCMM). The most commonly used qRT-PCR methods are the SYBR Green and dual-labeled probe (Taqman) approaches. Both approaches use reverse transcription to convert mRNA to cDNA, followed by PCR amplification of the cDNA. This article describes steps involved in aspects of qRT-PCR including (1) primer design, (2) primer and probe performance testing, (3) qRT-PCR using the Corbett Rotor-Gene system, and (4) data export and analysis.
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