Last updated: 2024-03-01
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Knit directory: PODFRIDGE/
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| html | 9e71347 | Tina Lasisi | 2024-01-22 | Build site. |
| html | c280b6f | Tina Lasisi | 2023-04-16 | Build site. |
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| html | df27992 | Tina Lasisi | 2023-04-10 | Update dates and analyses |
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| html | 5f805fe | Tina Lasisi | 2023-03-06 | Build site. |
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| Rmd | c5a307c | Tina Lasisi | 2023-03-04 | Name change |
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| html | 13ed9ae | Tina Lasisi | 2023-03-02 | Publishing POPFORGE |
| Rmd | 144ddae | Tina Lasisi | 2023-03-02 | Start workflowr project. |
The use of genetic data to identify individuals has become increasingly prevalent with the rise of consumer genomics databases and forensic genetic genealogy. Recent studies have shown that long-range familial searches can implicate the majority of US individuals of European descent (see Erlich et al 2018 and Coop & Edge 2019). These findings have motivated us to carry out further investigations into the disparities between populations in the likelihood of identifying individuals through genetic relatives.
African-Americans are overrepresented in forensic databases (see Murphy and Tong, 2019 ), but what we know about direct-to-consumer databases suggests that Europeans are highly represented there.
Our study aims to examine the impact of the varying degrees of representation across different types of genetic databases on the potential consequences for different populations, as well as the impact of different types of genetic data such as SNP genotyping and STR markers.
The PODFRIDGE (Population Differences in Forensic Relative Identification via Genetic Genealogy) project aims to address this question by using mathematical estimations of genetic relatedness based on previous methods, as well as simulating pedigrees and genomes for two populations based on input parameters. Additionally, demographic data from the US Census microdata will be used to obtain population size information on European and African Americans.
Our study aims to provide insight into the implications of these techniques for different populations and contribute to the ongoing discussions around genetic privacy and ethics.