In the past decade, hybridization capture has gained attention within the forensic field for its possible use in human identification. One of the primary benefits to capture enrichment is its applicability to degraded DNA fragments that, due to their reduced size, are not amenable to traditional PCR enrichment techniques. Hybridization capture is typically introduced after genomic library preparation of extracted DNA templates for the subsequent enrichment of mitochondrial DNA or single nucleotide polymorphisms within the nuclear genome. The enriched molecules are then subjected to massively parallel sequencing (MPS) for sensitive and high-throughput DNA sequence generation. Bioinformatic analysis of capture product removes PCR duplicates that were introduced during the laboratory workflow in order to characterize the original DNA template molecules. In the case of aged and degraded skeletal remains, the fraction of endogenous human DNA may be very low; therefore low-coverage sequence analysis may be required. This review contains an overview of current capture methodologies and the primary literature on hybridization capture as evaluated for forensic applications.
Keywords: Human identification; Hybridization capture; Massively parallel sequencing (MPS); Next-generation sequencing (NGS).
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