Australian Centre for Ancient DNA, University of Adelaide, Adelaide, SA, 5005, Australia.
Mol Ecol Resour. 2014 Jan;14(1):117-21. doi: 10.1111/1755-0998.12162. Epub 2013 Sep 13.
High-throughput sequencing (HTS) of PCR amplicons is becoming the method of choice to sequence one or several targeted loci for phylogenetic and DNA barcoding studies. Although the development of HTS has allowed rapid generation of massive amounts of DNA sequence data, preparing amplicons for HTS remains a rate-limiting step. For example, HTS platforms require platform-specific adapter sequences to be present at the 5' and 3' end of the DNA fragment to be sequenced. In addition, short multiplex identifier (MID) tags are typically added to allow multiple samples to be pooled in a single HTS run. Existing methods to incorporate HTS adapters and MID tags into PCR amplicons are either inefficient, requiring multiple enzymatic reactions and clean-up steps, or costly when applied to multiple samples or loci (fusion primers). We describe a method to amplify a target locus and add HTS adapters and MID tags via a linker sequence using a single PCR. We demonstrate our approach by generating reference sequence data for two mitochondrial loci (COI and 16S) for a diverse suite of insect taxa. Our approach provides a flexible, cost-effective and efficient method to prepare amplicons for HTS.
高通量测序(HTS)技术是一种用于对一个或多个靶向基因座进行测序的方法,该方法常用于系统发育和 DNA 条形码研究。虽然 HTS 的发展允许快速生成大量的 DNA 序列数据,但扩增子的制备仍然是一个限速步骤。例如,HTS 平台要求在待测序的 DNA 片段的 5'和 3'端存在平台特异性的接头序列。此外,通常会添加短的多重标识符(MID)标签,以允许在单个 HTS 运行中混合多个样本。将 HTS 接头和 MID 标签合并到 PCR 扩增子中的现有方法要么效率低下,需要多个酶反应和纯化步骤,要么在应用于多个样本或基因座(融合引物)时成本过高。我们描述了一种使用单个 PCR 通过链接序列扩增靶基因座并添加 HTS 接头和 MID 标签的方法。我们通过为一系列不同的昆虫分类单元生成两个线粒体基因座(COI 和 16S)的参考序列数据来证明我们的方法。我们的方法为 HTS 扩增子的制备提供了一种灵活、经济高效的方法。
