Increasing the discrimination power of forensic STR testing by employing high-performance mass spectrometry, as illustrated in indigenous South African and Central Asian populations

Florian Pitterl,Gabriela Huber,Walther Parson,Rhena Delport,Bertrand Ludes,Konrad Schmidt,Bettina Zimmermann,Sylvain Amory,Herbert Oberacher

doi:10.1007/s00414-009-0408-x

Florian Pitterl, Gabriela Huber + Show 7 more

Open Access

https://doi.org/10.1007/s00414-009-0408-x

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Abstract

Short tandem repeat (STR) typing has become the standard technique in forensic methodology for the identification of unknown samples. National DNA databases have been established that contain STR genotypes for intelligence purposes. Due to their success, national DNA databases have been growing so fast that the number of advantageous matches may become a logistic problem for the analysts. This is especially true for partial STR profiles as they display reduced discrimination power. To overcome this drawback, modified versions (so-called mini-STRs) of existing loci were introduced as well as new loci to improve the information content of (partial) STR profiles. We pursue an alternative approach that makes use of nucleotide variation within the amplified STR fragments, which can be discerned by mass spectrometry. We have developed an assay that determines molecular masses from crude STR amplicons which were purified and separated by a liquid chromatographic system directly hyphenated to an electrospray ionization mass spectrometer. We present here new population data of forensically relevant STRs in Khoisan and Yakut populations. These autochthonous groups were selected as they may harbor additional STR alleles that are rare or unobserved in modern humans from cosmopolitan areas, especially for the Khoisan, which are known to represent a very ancient human population. The analysis of the molecular mass of STRs offered a widened spectrum of allele variability escorted by enhanced forensic use. Thus, established STR data derived from fragment size analysis can still be used in casework or in the context of intelligence databasing.

Highlights

In the early 1990s, DNA-based identification of biological samples using multiplex polymerase chain reaction (PCR) of short tandem repeats (STR) has revolutionizedInt J Legal Med the field of forensic genetics by thitherto unobserved assay sensitivity and specificity [1]
We have shown that forensically relevant STR loci can be detected in multiplex format by ion-pair reversed-phase liquid chromatography–electrospray ionization time-of-flight mass spectrometry (ICEMS) to comply with the requirements of sensitive and informative forensic stain analysis [7]
This study presents population data on the current European Standard Set (ESS) loci and the aforementioned additional STRs D2S1338, D16S539, D19S433, and SE33 in indigenous African and Asian populations, which we selected for their autochthonous status that would possibly show yet unobserved alleles due to their ancient genetic background compared to modern urban populations that are usually tested in forensic genetics

Summary

Introduction

In the early 1990s, DNA-based identification of biological samples using multiplex polymerase chain reaction (PCR) of short tandem repeats (STR) has revolutionizedInt J Legal Med the field of forensic genetics by thitherto unobserved assay sensitivity and specificity [1]. The ESS panel includes the seven STR core loci D3S1358, D8S1179, D18S51, D21S11, FGA, TH01, and VWA, which have been adopted by the Interpol DNA Monitoring Expert group (www.interpol.int/ public/Forensic/dna/dnameg.asp) with the addition of the gender-specific locus amelogenin (International Standard Set of Loci). SE33 has been added to commercial kits (e.g., SEFiler, AB and Powerplex ES, Promega), as this marker is defined as core locus for the German National DNA Database. These additional loci are stored in the DNA databases to contribute to the genetic information that is used for intelligence purposes in the forensic field

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