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Preservation and Rapid Purification of DNA From Decomposing Human Tissue Samples

NCJ Number
252404
Journal
Forensic Science International-Genetics Volume: 25 Dated: November 2016 Pages: 182-190
Author(s)
Amy Sorensen; Elizabeth Rahman; Casandra Canela; David Gangitano; Sheree Hughes-Stamm
Date Published
November 2016
Length
9 pages
Annotation
This study evaluated three customized (modified TENT, DESS, LST) and two commercial DNA preservatives (RNAlater and DNAgard) on fresh and decomposed human skin and muscle samples stored in hot (35 degrees C) and humid (60-70 percent relative humidity) conditions for up to 3 months.
Abstract
One of the key responses following a mass disaster is victim identification; however, the recovery and identification of human remains are sometimes complicated by harsh environmental conditions, limited facilities, loss of electricity, and lack of refrigeration. If human remains cannot be collected, stored, or identified immediately, bodies decompose and DNA degrades, making genotyping more difficult and ultimately decreasing DNA profiling success. In order to prevent further DNA damage and degradation after the collection of human remains, tissue preservatives may be used. In testing such preservatives, the current study harvested skin and muscle samples from thighs of three human cadavers placed outdoors for up to 2 weeks. In addition, the possibility of purifying DNA directly from the preservative solutions ("free DNA") was investigated in order to eliminate lengthy tissue digestion processes and increase throughput. The efficiency of each preservative was evaluated based on the quantity of DNA recovered from both the "free DNA" in solution and the tissue sample itself in conjunction with the quality and completeness of downstream STR profiles. As expected, DNA quantity and STR success decreased with time of decomposition; however, a marked decrease in DNA quantity and STR quality was observed in all samples after the bodies entered the bloat stage (approximately 6 days of decomposition in this study). Similar amounts of DNA were retrieved from skin and muscle samples over time, but slightly more complete STR profiles were obtained from muscle tissue. Although higher amounts of DNA were recovered from tissue samples than from the surrounding preservative, the average number of reportable alleles from the "free DNA" was comparable. Overall, DNAgard and the modified TENT buffer were the most successful tissue preservatives tested in this study, based on STR profile success from "free DNA" in solution when decomposing tissues were stored for up to 3 months in hot, humid conditions. (Publisher abstract modified)