Massively parallel sequencing of complete mitochondrial genomes from hair shaft samples

Parson,W.;Huber,G.;Moreno,L.;Madel,M.B.;Brandhagen,M.D.;Nagl,S.;Xavier,C.;Eduardoff,M.;Callaghan,T.C.;Irwin,J.A.;
Though shed hairs are one of the most commonly encountered evidence types, they are among the most limited in terms of DNA quantity and quality. As a result, DNA testing has historically focused on the recovery of just about 600 base pairs of the mitochondrial DNA control region. Here, we describe our success in recovering complete mitochondrial genome (mtGenome) data (similar to 16,569 bp) from single shed hairs. By employing massively parallel sequencing (MPS), we demonstrate that particular hair samples yield DNA sufficient in quantity and quality to produce 2-3 kb mtGenome amplicons and that entire mtGenome data can be recovered from hair extracts even without PCR enrichment. Most importantly, we describe a small amplicon multiplex assay comprised of sixty-two primer sets that can be routinely applied to the compromised hair samples typically encountered in forensic casework. In all samples tested here, the MPS data recovered using any one of the three methods were consistent with the control Sanger sequence data developed from high quality known specimens. Given the recently demonstrated value of complete mtGenome data in terms of discrimination power among randomly sampled individuals, the possibility of recovering mtGenome data from the most compromised and limited evidentiary material is likely to vastly increase the utility of mtDNA testing for hair evidence. (C) 2014 Elsevier Ireland Ltd. All rights reserved.
Forensic Science International-Genetics 2015 15:8-15
Tags: next generation sequencing; mtdna; mtgenomes; heteroplasmy; forensic science; single nucleotide polymorphisms; forensic genetics; illumina miseq; high-quality; DNA; strategies; variants; EMPOP;
PubMed: 25438934
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