Abstract
Individual age estimation can be applied to criminal, legal, and anthropological investigations. DNA methylation has been established as the biomarker of choice for age prediction, since it was observed that specific CpG positions in the genome show systematic changes during an individual’s lifetime, with progressive increases or decreases in methylation levels. Subsequently, several forensic age prediction models have been reported, providing average age prediction error ranges of ±3–4 years, using a broad spectrum of technologies and underlying statistical analyses. DNA methylation assessment is not categorical but quantitative. Therefore, the detection platform used plays a pivotal role, since quantitative and semi-quantitative technologies could potentially result in differences in detected DNA methylation levels. In the present study, we analyzed as a shared sample pool, 84 blood-based DNA controls ranging from 18 to 99 years old using four different technologies: EpiTYPER®, pyrosequencing, MiSeq, and SNaPshotTM. The DNA methylation levels detected for CpG sites from ELOVL2, FHL2, and MIR29B2 with each system were compared. A restricted three CpG-site age prediction model was rebuilt for each system, as well as for a combination of technologies, based on previous training datasets, and age predictions were calculated accordingly for all the samples detected with the previous technologies. While the DNA methylation patterns and subsequent age predictions from EpiTYPER®, pyrosequencing, and MiSeq systems are largely comparable for the CpG sites studied, SNaPshotTM gives bigger differences reflected in higher predictive errors. However, these differences can be reduced by applying a z-score data transformation.
Highlights
DNA methylation is the most widely studied epigenetic mark in the human genome (Jones, 2012)
To the best of our knowledge, this is the first study covering the broadest possible comparison between DNA methylation technologies currently applied to forensic age prediction
The CpG sites for ELOVL2, FHL2, and MIR292B covered by the present study provide high accuracy for age prediction for most of the comparisons performed, in MIR292B the limits of agreement (LoA) is exceeded, and a lack of uniformity is consistently observed
Summary
DNA methylation is the most widely studied epigenetic mark in the human genome (Jones, 2012). Comparison of DNA Methylation Technologies considered the most accurate age prediction biomarker. From a forensic point of view, the ability to accurately predict the chronological age of the donor of a biological sample can provide relevant information in order to guide police investigation in cases where no suspects or matches in the DNA database are found (Freire-Aradas et al, 2017). As DNA methylation is quantitative in nature, potential differences in DNA methylation levels can be detected by each technology. Systematic comparisons of methylation detection technologies using a common set of controls become necessary
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