Wellcome Trust Centre for Human Genetics, OX3 7BN Oxford, UK.
BMC Biotechnol. 2013 Nov 20;13:104. doi: 10.1186/1472-6750-13-104.
The Nextera protocol, which utilises a transposome based approach to create libraries for Illumina sequencing, requires pure DNA template, an accurate assessment of input concentration and a column clean-up that limits its applicability for high-throughput sample preparation. We addressed the identified limitations to develop a robust workflow that supports both rapid and high-throughput projects also reducing reagent costs.
We show that an initial bead-based normalisation step can remove the need for quantification and improves sample purity. A 75% cost reduction was achieved with a low-volume modified protocol which was tested over genomes with different GC content to demonstrate its robustness. Finally we developed a custom set of index tags and primers which increase the number of samples that can simultaneously be sequenced on a single lane of an Illumina instrument.
We addressed the bottlenecks of Nextera library construction to produce a modified protocol which harnesses the full power of the Nextera kit and allows the reproducible construction of libraries on a high-throughput scale reducing the associated cost of the kit.
Nextera 方案利用转座酶体方法为 Illumina 测序创建文库,需要纯 DNA 模板、对输入浓度的准确评估以及柱清洗,这限制了其在高通量样品制备中的适用性。我们针对已确定的限制因素,开发了一种稳健的工作流程,既支持快速高通量项目,又降低了试剂成本。
我们表明,初始基于珠子的归一化步骤可以去除定量的需要并提高样品纯度。通过测试不同 GC 含量的基因组,我们实现了低体积改良方案 75%的成本降低,证明了其稳健性。最后,我们开发了一组自定义的索引标签和引物,可增加在 Illumina 仪器单个泳道上同时测序的样本数量。
我们解决了 Nextera 文库构建的瓶颈问题,开发了一种改良方案,充分利用了 Nextera 试剂盒的全部功能,并允许在高通量规模上可重复地构建文库,降低了试剂盒的相关成本。