Title

Enhanced Genetic Analysis Of Single Human Bioparticles Recovered By Simplified Micromanipulation From Forensic ‘Touch Dna’ Evidence

Keywords

Basic protocol; Cell isolation and recovery; DNA profiling; Forensic science; Issue 97; Micro-manipulation; Short tandem repeat (STR) analysis; Touch DNA evidence

Abstract

DNA profiles can be obtained from ‘touch DNA’ evidence, which comprises microscopic traces of human biological material. Current methods for the recovery of trace DNA employ cotton swabs or adhesive tape to sample an area of interest. However, such a ‘blind-swabbing’ approach will co-sample cellular material from the different individuals, even if the individuals’ cells are located in geographically distinct locations on the item. Thus, some of the DNA mixtures encountered in touch DNA samples are artificially created by the swabbing itself. In some instances, a victim’s DNA may be found in significant excess thus masking any potential perpetrator’s DNA. In order to circumvent the challenges with standard recovery and analysis methods, we have developed a lower cost, ‘smart analysis’ method that results in enhanced genetic analysis of touch DNA evidence. We describe an optimized and efficient micromanipulation recovery strategy for the collection of bio-particles present in touch DNA samples, as well as an enhanced amplification strategy involving a one-step 5 μl microvolume lysis/STR amplification to permit the recovery of STR profiles from the bio-particle donor(s). The use of individual or few (i.e., “clumps”) bioparticles results in the ability to obtain single source profiles. These procedures represent alternative enhanced techniques for the isolation and analysis of single bioparticles from forensic touch DNA evidence. While not necessary in every forensic investigation, the method could be highly beneficial for the recovery of a single source perpetrator DNA profile in cases involving physical assault (e.g., strangulation) that may not be possible using standard analysis techniques. Additionally, the strategies developed here offer an opportunity to obtain genetic information at the single cell level from a variety of other non-forensic trace biological material.

Publication Date

3-9-2015

Publication Title

Journal of Visualized Experiments

Volume

2015

Issue

97

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.3791/52612

Socpus ID

84941242508 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84941242508

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