Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples

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Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples. / Børsting, Claus; Mogensen, Helle Smidt; Morling, Niels.

I: Forensic science international. Genetics, Bind 7, Nr. 3, 05.2013, s. 345-52.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Børsting, C, Mogensen, HS & Morling, N 2013, 'Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples', Forensic science international. Genetics, bind 7, nr. 3, s. 345-52. https://doi.org/10.1016/j.fsigen.2013.02.004

APA

Børsting, C., Mogensen, H. S., & Morling, N. (2013). Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples. Forensic science international. Genetics, 7(3), 345-52. https://doi.org/10.1016/j.fsigen.2013.02.004

Vancouver

Børsting C, Mogensen HS, Morling N. Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples. Forensic science international. Genetics. 2013 maj;7(3):345-52. https://doi.org/10.1016/j.fsigen.2013.02.004

Author

Børsting, Claus ; Mogensen, Helle Smidt ; Morling, Niels. / Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples. I: Forensic science international. Genetics. 2013 ; Bind 7, Nr. 3. s. 345-52.

Bibtex

@article{764b8a3d09e040679e2249f5f7057589,
title = "Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples",
abstract = "Heterozygote imbalances leading to allele drop-outs and disproportionally large stutters leading to allele drop-ins are known stochastic phenomena related to STR typing of low-template DNA (LtDNA). The large stutters and the many drop-ins in typical STR stutter positions are artifacts from the PCR amplification of tandem repeats. These artifacts may be avoided by typing bi-allelic markers instead of STRs. In this work, the SNPforID multiplex assay was used to type LtDNA. A sensitized SNP typing protocol was introduced, that increased signal strengths without increasing noise and without affecting the heterozygote balance. Allele drop-ins were only observed in experiments with 25 pg of DNA and not in experiments with 50 and 100 pg of DNA. The allele drop-in rate in the 25 pg experiments was 0.06% or 100 times lower than what was previously reported for STR typing of LtDNA. A composite model and two different consensus models were used to interpret the SNP data. Correct profiles with 42-49 SNPs were generated from the 50 and 100 pg experiments, whereas a few incorrect genotypes were included in the generated profiles from the 25 pg experiments. With the strict consensus model, between 35 and 48 SNPs were correctly typed in the 25 pg experiments and only one allele drop-out (error rate: 0.07%) was observed in the consensus profiles. A total of 28 crime case samples were selected for typing with the sensitized SNPforID protocol. The samples were previously typed with old STR kits during the crime case investigation and only partial profiles (0-6 STRs) were obtained. Eleven of the samples could not be quantified with the Quantifiler{\texttrademark} Human DNA Quantification kit because of partial or complete inhibition of the PCR. For eight of these samples, SNP typing was only possible when the buffer and DNA polymerase used in the original protocol was replaced with the AmpFℓSTR({\textregistered}) SEfiler Plus{\texttrademark} Master Mix, which was developed specifically for challenging forensic samples. All the crime case samples were successfully typed with the SNPforID multiplex assay and the match probabilities ranged from 1.1×10(-15) to 7.9×10(-23). In comparison, four of the samples could not be typed with the AmpFℓSTR({\textregistered}) SEfiler Plus{\texttrademark} kit and the match probabilities were higher than 10(-7) for another six samples.",
author = "Claus B{\o}rsting and Mogensen, {Helle Smidt} and Niels Morling",
note = "Copyright {\textcopyright} 2013 Elsevier Ireland Ltd. All rights reserved.",
year = "2013",
month = may,
doi = "10.1016/j.fsigen.2013.02.004",
language = "English",
volume = "7",
pages = "345--52",
journal = "Forensic Science International: Genetics",
issn = "1872-4973",
publisher = "Elsevier",
number = "3",

}

RIS

TY - JOUR

T1 - Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples

AU - Børsting, Claus

AU - Mogensen, Helle Smidt

AU - Morling, Niels

N1 - Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.

PY - 2013/5

Y1 - 2013/5

N2 - Heterozygote imbalances leading to allele drop-outs and disproportionally large stutters leading to allele drop-ins are known stochastic phenomena related to STR typing of low-template DNA (LtDNA). The large stutters and the many drop-ins in typical STR stutter positions are artifacts from the PCR amplification of tandem repeats. These artifacts may be avoided by typing bi-allelic markers instead of STRs. In this work, the SNPforID multiplex assay was used to type LtDNA. A sensitized SNP typing protocol was introduced, that increased signal strengths without increasing noise and without affecting the heterozygote balance. Allele drop-ins were only observed in experiments with 25 pg of DNA and not in experiments with 50 and 100 pg of DNA. The allele drop-in rate in the 25 pg experiments was 0.06% or 100 times lower than what was previously reported for STR typing of LtDNA. A composite model and two different consensus models were used to interpret the SNP data. Correct profiles with 42-49 SNPs were generated from the 50 and 100 pg experiments, whereas a few incorrect genotypes were included in the generated profiles from the 25 pg experiments. With the strict consensus model, between 35 and 48 SNPs were correctly typed in the 25 pg experiments and only one allele drop-out (error rate: 0.07%) was observed in the consensus profiles. A total of 28 crime case samples were selected for typing with the sensitized SNPforID protocol. The samples were previously typed with old STR kits during the crime case investigation and only partial profiles (0-6 STRs) were obtained. Eleven of the samples could not be quantified with the Quantifiler™ Human DNA Quantification kit because of partial or complete inhibition of the PCR. For eight of these samples, SNP typing was only possible when the buffer and DNA polymerase used in the original protocol was replaced with the AmpFℓSTR(®) SEfiler Plus™ Master Mix, which was developed specifically for challenging forensic samples. All the crime case samples were successfully typed with the SNPforID multiplex assay and the match probabilities ranged from 1.1×10(-15) to 7.9×10(-23). In comparison, four of the samples could not be typed with the AmpFℓSTR(®) SEfiler Plus™ kit and the match probabilities were higher than 10(-7) for another six samples.

AB - Heterozygote imbalances leading to allele drop-outs and disproportionally large stutters leading to allele drop-ins are known stochastic phenomena related to STR typing of low-template DNA (LtDNA). The large stutters and the many drop-ins in typical STR stutter positions are artifacts from the PCR amplification of tandem repeats. These artifacts may be avoided by typing bi-allelic markers instead of STRs. In this work, the SNPforID multiplex assay was used to type LtDNA. A sensitized SNP typing protocol was introduced, that increased signal strengths without increasing noise and without affecting the heterozygote balance. Allele drop-ins were only observed in experiments with 25 pg of DNA and not in experiments with 50 and 100 pg of DNA. The allele drop-in rate in the 25 pg experiments was 0.06% or 100 times lower than what was previously reported for STR typing of LtDNA. A composite model and two different consensus models were used to interpret the SNP data. Correct profiles with 42-49 SNPs were generated from the 50 and 100 pg experiments, whereas a few incorrect genotypes were included in the generated profiles from the 25 pg experiments. With the strict consensus model, between 35 and 48 SNPs were correctly typed in the 25 pg experiments and only one allele drop-out (error rate: 0.07%) was observed in the consensus profiles. A total of 28 crime case samples were selected for typing with the sensitized SNPforID protocol. The samples were previously typed with old STR kits during the crime case investigation and only partial profiles (0-6 STRs) were obtained. Eleven of the samples could not be quantified with the Quantifiler™ Human DNA Quantification kit because of partial or complete inhibition of the PCR. For eight of these samples, SNP typing was only possible when the buffer and DNA polymerase used in the original protocol was replaced with the AmpFℓSTR(®) SEfiler Plus™ Master Mix, which was developed specifically for challenging forensic samples. All the crime case samples were successfully typed with the SNPforID multiplex assay and the match probabilities ranged from 1.1×10(-15) to 7.9×10(-23). In comparison, four of the samples could not be typed with the AmpFℓSTR(®) SEfiler Plus™ kit and the match probabilities were higher than 10(-7) for another six samples.

U2 - 10.1016/j.fsigen.2013.02.004

DO - 10.1016/j.fsigen.2013.02.004

M3 - Journal article

C2 - 23523365

VL - 7

SP - 345

EP - 352

JO - Forensic Science International: Genetics

JF - Forensic Science International: Genetics

SN - 1872-4973

IS - 3

ER -

ID: 51173283