Yes, Daicel Arbor Biosciences has an NGS services division adept at preparing and working with ancient DNA libraries. Learn more about our myReads NGS laboratory and sequencing service options, and contact us today to discuss your NGS project goals with our team of ancient DNA experts.

Hybridization capture is integrated into the overall NGS workflow immediately before sequencing on an NGS platform, such as Illumina. A fully sequenceable, barcoded/indexed NGS library is made from bisulfite or enzymatically-converted DNA. A pool of these multiple barcoded NGS libraries is then denatured, and allowed to anneal to complementary target-specific biotinylated probes/baits. These bait:library complexes are then bound to streptavidin-coated magnetic beads via the biotin on the probes, which are washed to remove non-specifically bound molecules. The remaining “enriched” library molecules are then released from the baits and amplified before sequencing.

Note! You may know the “hybridization capture” technique by another name, such as:

• Target enrichment
• Target capture
• Probe capture
• Exon capture
• Capture sequencing / sequence capture
• Hybridization sequencing / hyb-seq

Use myBaits with PCR-amplified and amplifiable NGS libraries, including Illumina TruSeq® -style, Illumina Nextera® Flex-style, Ion Torrent, or other libraries with universal adapter priming sites. It is NOT recommended to use myBaits with PCR-free libraries. Additionally, myBaits are incompatible with libraries made using original Nextera or Nextera XT library preparation kits, or any library type containing biotin. Dual-indexed libraries are strongly recommended to reduce the hazard of mis-indexing induced by PCR jumping events. The applicable myBaits manual provides detailed protocol instructions for enriching libraries for sequencing on short- and/or long-read platforms (e.g. PacBio® or Oxford Nanopore Technologies®).

If you are using a never-before-tried library prep protocol to pair with your myBaits kit, we recommend that you first perform some total library (shotgun) sequencing before doing myBaits enrichment. This is important in order to verify that your chosen library prep protocol/kit generates libraries of sufficient complexity and minimal bias in your hands, otherwise you may experience poor target capture results. High quality libraries are absolutely essential for achieving a successful target capture project.

Provided below are a list of companies that sell NGS library prep kits that are known to be compatible with myBaits. This is NOT an exhaustive list; there are many other unlisted options that are also compatible with myBaits. Also, kits on this list may not necessarily be appropriate for your samples. NGS library prep is not “one size fits all”; different factors such as sample type, DNA input amount, genome complexity, and sequence composition may influence the type of library prep kit that would be best for your application. For example, low input, degraded, and/or damaged DNA templates may require special handling (see below) and/or modifications to commercial kits.

Contact these and other manufacturers to learn about your options and find what works best for your samples and project needs:

• Biosearch / Lucigen
• Claret Bioscience
• Illumina
• New England Biolabs
• Kapa Biosystems
• PerkinElmer / Bioo Scientific
• Rubicon Genomics / Takara
• Swift Biosciences / IDT

Target capture necessarily requires subjecting your libraries to a bottleneck, wherein target molecules are captured and enriched, and non-target molecules are therefore removed. To have sufficient unique molecules for good sequencing coverage of your targets, successful captures DEPEND on the input of sufficiently complex libraries. For this reason, for libraries with a significant non-target component (e.g., ancient, forensic, or environmental samples), and especially for WGE captures with a very large full nuclear genome target size, we strongly recommend maximizing the target component in each capture by using as much input library as possible (up to 2 µg+), and consider two rounds of capture for higher percentage of reads on-target.

For best results, it is recommended that only amplified (non-PCR-free) NGS libraries are used for target capture. This provides multiple copies of each starting template molecule, increasing the chance of each individual molecule getting enriched. However if you need more starting material to reach the recommended amount, it is generally preferable to generate more library from fresh genomic DNA or a new batch of indexed library, rather than through extra amplification. This is because while some amplification is good, over-amplification risks reducing the observable complexity of your libraries through the uneven action of PCR bias, as some molecules will become relatively more abundant while others become rare. This is also true for manipulating your libraries after capture: amplify your post-capture libraries the minimum number of cycles necessary to reach the molarity required by your sequencing facility.