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Journal Article

Citation

Boyko T, Szkuta B, Mitchell RJ, van Oorschot RAH. Forensic Sci. Int. 2020; 307: e110139.

Affiliation

School of Molecular Sciences, La Trobe University, Melbourne, Bundoora 3086, Australia; Office of the Chief Forensic Scientist, Victoria Police Forensic Services Centre, 31 Forensic Drive, Macleod 3085, Australia.

Copyright

(Copyright © 2020, Elsevier Publishing)

DOI

10.1016/j.forsciint.2020.110139

PMID

31935660

Abstract

Cars are often sampled for DNA to help identify occupants and their possible location(s) within the car. While DNA from the frequent driver is likely to accumulate over time, DNA from previous and/or subsequent occupants, and those whose DNA has inadvertently been transferred to the car, may also contribute to any samples collected. This study investigates how much DNA resides on various sites within cars, and who might contribute to these samples. A total of 35-36 sites, internal and external, were targeted within four cars with sole long-term drivers. In addition to the car keys, sample sites included the exterior and interior door handles (driver and passenger sides), through to the internal compartments (driver side, middle area and front passengers' side). Reference samples were collected from the exclusive drivers, their co-resident partners and, where possible, recent passengers. The driver was always observed as a contributor in DNA profiles from the driver's side and, in most instances, was the sole, major or majority contributor to the profile. The driver was also observed as a major, majority or minor contributor at several sites on the passenger side. DNA of known recent passengers, close associates of the driver and unknown individuals was collected from many sites on both the driver and passenger sides. These findings may assist in sample targeting within cars and in the evaluation of DNA evidence when propositions relate to the activities performed.

Copyright © 2020. Published by Elsevier B.V.


Language: en

Keywords

Cars; DNA persistence; DNA prevalence; DNA recovery; DNA transfer; Forensic biology

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