对恶性疟原虫分离株进行 pooled 深度测序:一种高效且可扩展的工具,用于定量流行的抗疟药物耐药基因型。
Pooled deep sequencing of Plasmodium falciparum isolates: an efficient and scalable tool to quantify prevailing malaria drug-resistance genotypes.
机构信息
Department of Epidemiology, Gillings School of Global Public Health.
出版信息
J Infect Dis. 2013 Dec 15;208(12):1998-2006. doi: 10.1093/infdis/jit392. Epub 2013 Aug 1.
Abstract
Molecular surveillance for drug-resistant malaria parasites requires reliable, timely, and scalable methods. These data may be efficiently produced by genotyping parasite populations using second-generation sequencing (SGS). We designed and validated a SGS protocol to quantify mutant allele frequencies in the Plasmodium falciparum genes dhfr and dhps in mixed isolates. We applied this new protocol to field isolates from children and compared it to standard genotyping using Sanger sequencing. The SGS protocol accurately quantified dhfr and dhps allele frequencies in a mixture of parasite strains. Using SGS of DNA that was extracted and then pooled from individual isolates, we estimated mutant allele frequencies that were closely correlated to those estimated by Sanger sequencing (correlations, >0.98). The SGS protocol obviated most molecular steps in conventional methods and is cost saving for parasite populations >50. This SGS genotyping method efficiently and reproducibly estimates parasite allele frequencies within populations of P. falciparum for molecular epidemiologic studies.
摘要
分子监测耐药疟原虫需要可靠、及时和可扩展的方法。使用第二代测序 (SGS) 对寄生虫种群进行基因分型可以有效地产生这些数据。我们设计并验证了一种 SGS 方案,用于定量混合分离物中恶性疟原虫基因 dhfr 和 dhps 中的突变等位基因频率。我们将此新方案应用于来自儿童的现场分离物,并将其与使用 Sanger 测序的标准基因分型进行了比较。SGS 方案可准确定量寄生虫株混合物中的 dhfr 和 dhps 等位基因频率。使用从单个分离物中提取并混合的 DNA 进行 SGS,我们估计的突变等位基因频率与 Sanger 测序估计的非常相关(相关性 >0.98)。SGS 方案省去了常规方法中的大多数分子步骤,对于 >50 的寄生虫种群具有成本效益。这种 SGS 基因分型方法可高效且可重复地估计恶性疟原虫种群内的寄生虫等位基因频率,适用于分子流行病学研究。
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