Individual shedder status and the origin of touch DNA

Due to improved laboratory techniques, touched surfaces and items are increasingly employed as sources of forensic DNA evidence. This has urged a need to better understand the mechanisms of DNA transfer between individuals. Shedder status (i.e. the propensity to leave DNA behind) has been identified as one major factor regulating DNA transfer. It is known that some individuals tend to shed more DNA than others, but the mechanisms behind shedder status are largely unknown. By comparing the amounts of DNA deposited from active hands (i.e. used as usual) and inactive hands (i.e. not allowed to touch anything), we show that some of the selfDNA deposited from hands is likely to have accumulated on hands from other parts of the body or previously handled items (active hands: 2.1 +/- 2.7 ng, inactive hands: 0.83 +/- 1.1 ng, paired t-test: p = 0.014, n = 27 pairs of hands). Further investigation showed that individual levels of deposited DNA are highly associated with the level of DNA accumulation on the skin of the face (Pearson's correlation: r = 0.90, p < 0.00001 and Spearman's ranked correlation: rs = 0.56, p = 0.0016, n = 29). We hypothesized that individual differences in sebum secretion levels could influence the amount of DNA accumulation in facial areas, but no such correlation was seen (Pearson's correlation: r = - 0.13, p = 0.66, n = 14). Neither was there any correlation between DNA levels on hands or forehead and the time since hand or face wash. We propose that the amount of self-DNA deposited from hands is highly influenced by the individual levels of accumulated facial DNA, and that cells/DNA is often transferred to hands by touching or rubbing one's face.

Automated summary

Improved laboratory techniques have led to an increased use of touched surfaces and items as sources of forensic DNA evidence. Shedder status, which determines the propensity to leave DNA behind, plays a major role in regulating DNA transfer between individuals. The levels of deposited DNA on hands are closely associated with the accumulation of DNA on facial skin, suggesting that self-DNA transfer is influenced by accumulated facial DNA.