Leg Med (Tokyo) 2012 Jan 17;14(1):36-9. Epub 2011 Dec 17.
Department of Forensic and Investigative Genetics, Institute of Applied Genetics, University of North Texas Health Science Center, 3500 Camp Bowie Boulevard, Ft. Worth, TX 76107-2699, USA.
The DNA extraction performance of three low-throughput extraction systems was evaluated. The instruments and respective chemistries all use a similar extraction methodology that involves binding DNA to a coated magnetic resin in the presence of chaotropic salt, washing of the resin to remove undesirable compounds, and elution of DNA from the particles in a low-salt solution. The AutoMate Express™ (Life Technologies Corporation, Carlsbad, CA), EZ1® Advanced XL (Qiagen Inc., Valencia, CA), and Maxwell® 16 (Promega Corporation, Madison, WI) were compared using a variety of samples including: blood on swabs, blood on denim, blood on cotton, blood mixed with inhibitors (a mixture of indigo, hematin, humic acid, and urban dust) on cotton, blood on FTA® paper, saliva residue on cigarette butt paper, epithelial cells on cotton swabs, neat semen on cotton, hair roots, bones, and teeth. Each instrument had a recommended pre-processing protocol for each sample type, and these protocols were followed strictly to reduce user bias. All extractions were performed in triplicate for each sample type. The three instruments were compared on the basis of quantity of DNA recovered (as determined by real-time PCR), relative level of inhibitors present in the extract (shown as shifts in the C(T) value for the internal PCR control in the real-time PCR assay), STR peak heights, use of consumables not included in the extraction kits, ease of use, and application flexibility. All three systems performed well; however extraction efficiency varied by sample type and with the preprocessing protocol applied to the various samples.