An Evaluation of the Transfer of Saliva-derived DNA

Overview

Journal Int J Legal Med

Specialty Forensic Sciences

Date 2012 Jul 17

PMID 22797945

Citations 8

Authors

David H Warshauer

Pamela Marshall

Shamika Kelley

Jonathan King

Bruce Budowle

Affiliations

Soon will be listed here.

Abstract

Studies of DNA transfer have focused largely on the transfer of sloughed off epithelial cells from individuals' hands. This research examines primary, secondary, and tertiary transfer events involving DNA originating from saliva, a commonly encountered body fluid. More routine human behaviors were simulated to evaluate transfer, and the effects of drying time, moisture, and surface composition were investigated. The results agree with previous findings which indicate that the presence of moisture, as well as a smooth nonporous surface as the primary substrate, increases the efficiency of transfer. Previous transfer studies have found that the last individual to come into contact with an item is usually the major contributor to the resulting DNA mixture, unless conditions are simulated in which a "good shedder" serves as the primary depositor and a poor shedder serves as the secondary depositor. The results of this study indicate that when saliva is the source of the transferred DNA, the primary depositor is often the major contributor. These findings suggest that shedder status is less relevant with regard to touch DNA samples in a forensic setting and emphasize the need for caution when analyzing such samples.

Citing Articles

Indirect DNA Transfer and Forensic Implications: A Literature Review.

Sessa F, Pomara C, Esposito M, Grassi P, Cocimano G, Salerno M Genes (Basel). 2023; 14(12).

PMID: 38136975 PMC: 10742555. DOI: 10.3390/genes14122153.

Targeting cell-derived markers to improve the detection of invisible biological traces for the purpose of genetic-based criminal identification.

Recipon M, Agniel R, Leroy-Dudal J, Fritz T, Carreiras F, Hermitte F Sci Rep. 2023; 13(1):18105.

PMID: 37872292 PMC: 10593828. DOI: 10.1038/s41598-023-45366-y.

Impact on touch DNA of an alcohol-based hand sanitizer used in COVID-19 prevention.

Bini C, Giorgetti A, Fazio G, Amurri S, Pelletti G, Pelotti S Int J Legal Med. 2023; 137(3):645-653.

PMID: 36826525 PMC: 9951825. DOI: 10.1007/s00414-023-02979-2.

The diversity of shedder tests and a novel factor that affects DNA transfer.

Schwender M, Bamberg M, Dierig L, Kunz S, Wiegand P Int J Legal Med. 2021; 135(4):1267-1280.

PMID: 33783604 DOI: 10.1007/s00414-021-02533-y.

Touch DNA in forensic science: The use of laboratory-created eccrine fingerprints to quantify DNA loss.

Tang J, Ostrander J, Wickenheiser R, Hall A Forensic Sci Int Synerg. 2020; 2:1-16.

PMID: 32411992 PMC: 7219128. DOI: 10.1016/j.fsisyn.2019.10.004.

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