Specific sequence selection and next generation resequencing of 68 E. coli genes using HybSelect.

Recent years have seen tremendous progress in next generation sequencing technologies, allowing genomic sequencing in a highly cost-effective manner. However, sample preparation for these sequencers remains a bottleneck as the human genome is too complex to be routinely resequenced. We present here an in-depth study of HybSelect, a method that can specifically enrich a large number of genes or regions of interest from any chromosomal DNA. The study used Escherichia coli K12 MG1655 as a model organism to test parameters such as method fidelity, capacity or reproducibility as a proof-of-principle.

Targeted next-generation sequencing by specific capture of multiple genomic loci using low-volume microfluidic DNA arrays.

We report a flexible method for selective capture of sequence fragments from complex, eukaryotic genome libraries for next-generation sequencing based on hybridization to DNA microarrays. Using microfluidic array architecture and integrated hardware, the process is amenable to complete automation and does not introduce amplification steps into the standard library preparation workflow, thereby avoiding bias of sequence distribution and fragment lengths. We captured a discontiguous human genomic target region of 185 kb using a tiling design with 50mer probes. Analysis by high-throughput sequencing using an Illumina/Solexa 1G Genome Analyzer revealed 2150-fold enrichment with mean per base coverage between 4.6 and 107.5-fold for the individual target regions. This method represents a flexible and cost-effective approach for large-scale resequencing of complex genomes.