DNA profile match probability calculation: how to allow for population stratification, relatedness, database selection and single bands

doi:10.1016/0379-0738(94)90222-4

Forensic Science International

Volume 64, Issues 2–3, February 1994, Pages 125-140

https://doi.org/10.1016/0379-0738(94)90222-4 Get rights and content

Abstract

In DNA profile analysis, uncertainty arises due to a number of factors such as sampling error, single bands and correlations within and between loci. One of the most important of these factors is kinship: criminal and innocent suspect may share one or more bands through identity by descent from a common ancestor. Ignoring this uncertainty is consistently unfair to innocent suspects. The effect is usually small, but may be important in some cases. The report of the US National Research Committee proposed a complicated, ad-hoc and overly-conservative method of dealing with some of these problems. We propose an alternative approach which addresses directly the effect of kinship. Whilst remaining conservative, it is simple, logically coherent and makes efficient use of the data.

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DNA profile match probability calculation: how to allow for population stratification, relatedness, database selection and single bands

Abstract

Forensic Sci. Int.

Cell

DNA fingerprinting for forensic identification: Potential effects on data interpretation of sub-population heterogeneity and band number variability

Am. J. Hum. Genet.

Invited editorial: Research on DNA typing catching up with courtroom application

Am. J. Hum. Genet.

Population genetics in forensic DNA typing

Science

Effects of population structure on DNA fingerprint analysis in forensic science

Heredity

Genetic structure of forensic populations

Genetic differences at four DNA typing loci in Finnish, Italian and mixed Caucasian populations

DNA Technology in Forensic Science

Geneticists attack NRC report as scientifically flawed

Science

Population genetics in the forensic DNA debate

An illustration of the advantages of efficient statistical methods for RFLP analysis in forensic science

Am. J. Hum. Genet.

The utility of DNA typing in forensic work

Science

Independence of VNTR alleles defined as fixed bins

Genetics

The effect of population subdivision on estimates of the likelihood ratio in criminal cases using single-locus DNA probes

Heredity