Comparison of three methods of DNA extraction from human bones with different degrees of degradation
- PMID: 21717154
- PMCID: PMC3254873
- DOI: 10.1007/s00414-011-0590-5
Comparison of three methods of DNA extraction from human bones with different degrees of degradation
Abstract
There is a necessity for deceased identification as a result of many accidents and sometimes bones are the only accessible source of DNA. So far, a universal method that allows for extraction of DNA from materials at different stages of degradation does not exist. The aims of this study were: the comparison of three methods of DNA extraction from bones with different degree of degradation and an evaluation of the usefulness of these methods in forensic genetics. The efficiency of DNA extraction, the degree of extract contamination by polymerase chain reaction (PCR) inhibitors and the possibility of determining the STR loci profile were especially being compared. Nuclear DNA from bones at different states of degradation was isolated using three methods: classical, organic phenol-chloroform extraction, DNA extraction from crystal aggregates and extraction by total demineralisation. Total demineralisation is the best method for most cases of DNA extraction from bones, although it does not provide pure DNA. DNA extraction from aggregates removes inhibitors much better and is also a good method of choice when identity determination of exhumed remains is necessary. In the case of not buried bones (remains found outside) total demineralisation or phenol-chloroform protocols are more efficient for successful DNA extraction.
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References
-
- Holland MM, Cave CA, Holland CA, Bille TW. Development of a quality, high throughput DNA analysis procedure for skeletal samples to assist with the identification of victims from the World Trade Center attacks. Croat Med J. 2003;44:264–272. - PubMed
-
- Primorac D. The role of DNA technology in identification of skeletal remains discovered in mass graves. Forensic Sci Int. 2004;146S:163–164. - PubMed
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