José T. Saavedra, Julia A. Schwartzman, Michael S. Gilmore
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引用次数: 16
Abstract
Transposons can be used to easily generate and label the location of mutations throughout bacterial and other genomes. Transposon insertion mutants may be screened for a phenotype as individual isolates, or by selection applied to a pool of thousands of mutants. Identifying the location of a transposon insertion is critical for connecting phenotype to the genetic lesion. In this unit, we present an easy and detailed approach for mapping transposon insertion sites using arbitrarily-primed PCR (AP-PCR). Two rounds of PCR are used to (1) amplify DNA spanning the transposon insertion junction, and (2) increase the specific yield of transposon insertion junction fragments for sequence analysis. The resulting sequence is mapped to a bacterial genome to identify the site of transposon insertion. In this protocol, AP-PCR as it is routinely used to map sites of transposon insertion within Staphylococcus aureus, is used to illustrate the principle. Guidelines are provided for adapting this protocol for mapping insertions in other bacterial genomes. Mapping transposon insertions using this method is typically achieved in 2 to 3 days if starting from a culture of the transposon insertion mutant. © 2017 by John Wiley & Sons, Inc.
利用任意引物PCR定位细菌基因组中的转座子插入
转座子可以很容易地在细菌和其他基因组中产生和标记突变的位置。转座子插入突变体可以作为单个分离物进行表型筛选,或者通过选择应用于数千个突变体的库。确定转座子插入的位置对于将表型与遗传病变联系起来至关重要。在本单元中,我们提出了一种使用任意引物PCR (AP-PCR)绘制转座子插入位点的简单而详细的方法。两轮PCR用于(1)扩增跨越转座子插入结的DNA,(2)增加转座子插入结片段的特异性产率,用于序列分析。所得到的序列被映射到细菌基因组,以确定转座子插入的位置。在本方案中,AP-PCR通常用于绘制金黄色葡萄球菌内转座子插入位点,因此用于说明该原理。本文提供了将该方法应用于其他细菌基因组插入图谱的指南。如果从转座子插入突变体的培养开始,使用这种方法通常在2至3天内完成转座子插入的定位。©2017 by John Wiley &儿子,Inc。
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