An enzyme-based DNA preparation method for application to forensic biological samples and degraded stains
Autor: | Natalie Coult, Doris M. Haverstick, David J. Saul, Daniel C. Miranian, Stephen M. Cronk, Paul Kinnon, James P. Landers, Jenny A. Lounsbury |
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Rok vydání: | 2011 |
Předmět: |
Forensic Genetics
Lysis Chromatography Buccal swab Extraction (chemistry) DNA Biology Molecular biology DNA extraction Polymerase Chain Reaction Pathology and Forensic Medicine law.invention Enzymes chemistry.chemical_compound chemistry law Genetics Humans Centrifugation Solid phase extraction Polymerase chain reaction |
Zdroj: | Forensic science international. Genetics. 6(5) |
ISSN: | 1878-0326 |
Popis: | Extraction of DNA from forensic samples typically uses either an organic extraction protocol or solid phase extraction (SPE) and these methods generally involve numerous sample transfer, wash and centrifugation steps. Although SPE has been successfully adapted to the microdevice, it can be problematic because of lengthy load times and uneven packing of the solid phase. A closed-tube enzyme-based DNA preparation method has recently been developed which uses a neutral proteinase to lyse cells and degrade proteins and nucleases [14]. Following a 20min incubation of the buccal or whole blood sample with this proteinase, DNA is polymerase chain reaction (PCR)-ready. This paper describes the optimization and quantitation of DNA yield using this method, and application to forensic biological samples, including UV- and heat-degraded whole blood samples on cotton or blue denim substrates. Results demonstrate that DNA yield can be increased from 1.42 (±0.21)ng/μL to 7.78 (±1.40)ng/μL by increasing the quantity of enzyme per reaction by 3-fold. Additionally, there is a linear relationship between the amount of starting cellular material added and the concentration of DNA in the solution, thereby allowing DNA yield estimations to be made. In addition, short tandem repeat (STR) profile results obtained using DNA prepared with the enzyme method were comparable to those obtained with a conventional SPE method, resulting in full STR profiles (16 of 16 loci) from liquid samples (buccal swab eluate and whole blood), dried buccal swabs and bloodstains and partial profiles from UV or heat-degraded bloodstains on cotton or blue denim substrates. Finally, the DNA preparation method is shown to be adaptable to glass or poly(methyl methacrylate) (PMMA) microdevices with little impact on STR peak height but providing a 20-fold reduction in incubation time (as little as 60s), leading to a ≥1h reduction in DNA preparation time. |
Databáze: | OpenAIRE |
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