Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel

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Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel. / Johansen, P; Andersen, J D; Børsting, Claus; Morling, N.

In: Forensic science international. Genetics, Vol. 7, No. 5, 09.2013, p. 482-7.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Johansen, P, Andersen, JD, Børsting, C & Morling, N 2013, 'Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel', Forensic science international. Genetics, vol. 7, no. 5, pp. 482-7. https://doi.org/10.1016/j.fsigen.2013.04.009

APA

Johansen, P., Andersen, J. D., Børsting, C., & Morling, N. (2013). Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel. Forensic science international. Genetics, 7(5), 482-7. https://doi.org/10.1016/j.fsigen.2013.04.009

Vancouver

Johansen P, Andersen JD, Børsting C, Morling N. Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel. Forensic science international. Genetics. 2013 Sep;7(5):482-7. https://doi.org/10.1016/j.fsigen.2013.04.009

Author

Johansen, P ; Andersen, J D ; Børsting, Claus ; Morling, N. / Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel. In: Forensic science international. Genetics. 2013 ; Vol. 7, No. 5. pp. 482-7.

Bibtex

@article{ee3d2f1a6f1f4498bc196740359297aa,
title = "Evaluation of the iPLEX({\circledR}) Sample ID Plus Panel designed for the Sequenom MassARRAY({\circledR}) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel",
abstract = "Sequenom launched the first commercial SNP typing kit for human identification, named the iPLEX({\circledR}) Sample ID Plus Panel. The kit amplifies 47 of the 52 SNPs in the SNPforID panel, amelogenin and two Y-chromosome SNPs in one multiplex PCR. The SNPs were analyzed by single base extension (SBE) and Matrix Assisted Laser Desorption/Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS). In this study, we evaluated the accuracy and sensitivity of the iPLEX({\circledR}) Sample ID Plus Panel by comparing the typing results of the iPLEX({\circledR}) Sample ID Plus Panel with those obtained with our ISO 17025 accredited SNPforID assay. The average call rate for duplicate typing of any one SNPs in the panel was 90.0{\%} when the mass spectra were analyzed automatically with the MassARRAY({\circledR}) TYPER 4.0 genotyping software in real time. Two reproducible inconsistencies were observed (error rate: 0.05{\%}) at two different SNP loci. In addition, four inconsistencies were observed once. The optimal amount of template DNA in the PCR was ≥10ng. There was a relatively high risk of allele and locus drop-outs when ≤1ng template DNA was used. We developed an R script with a stringent set of {"}forensic analysis parameters{"} based on the peak height and the signal to noise data exported from the TYPER 4.0 software. With the forensic analysis parameters, all inconsistencies were eliminated in reactions with ≥10ng DNA. However, the average call rate decreased to 69.9{\%}. The iPLEX({\circledR}) Sample ID Plus Panel was tested on 10 degraded samples from forensic case-work. Two samples could not be typed, presumably because the samples contained PCR and SBE inhibitors. The average call rate was generally lower for degraded DNA samples and the number of inconsistencies higher than for pristine DNA. However, none of the inconsistencies were reproduced and the highest match probability for the degraded samples typed with the panel was 1.7E-9 using the stringent forensic analysis parameters. Although the relatively low sensitivity of the iPLEX({\circledR}) Sample ID Plus Panel makes it inappropriate for typing of trace samples from crime scenes, the panel may be interesting for relationship testing and for identification of e.g. samples in biobanks because of the low reagent costs, the limited hands-on time of the iPLEX({\circledR}) assay and the automatic analysis of the mass spectra.",
author = "P Johansen and Andersen, {J D} and Claus B{\o}rsting and N Morling",
note = "Copyright {\circledC} 2013 Elsevier Ireland Ltd. All rights reserved.",
year = "2013",
month = "9",
doi = "10.1016/j.fsigen.2013.04.009",
language = "English",
volume = "7",
pages = "482--7",
journal = "Forensic Science International: Genetics",
issn = "1872-4973",
publisher = "Elsevier",
number = "5",

}

RIS

TY - JOUR

T1 - Evaluation of the iPLEX(®) Sample ID Plus Panel designed for the Sequenom MassARRAY(®) system. A SNP typing assay developed for human identification and sample tracking based on the SNPforID panel

AU - Johansen, P

AU - Andersen, J D

AU - Børsting, Claus

AU - Morling, N

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

PY - 2013/9

Y1 - 2013/9

N2 - Sequenom launched the first commercial SNP typing kit for human identification, named the iPLEX(®) Sample ID Plus Panel. The kit amplifies 47 of the 52 SNPs in the SNPforID panel, amelogenin and two Y-chromosome SNPs in one multiplex PCR. The SNPs were analyzed by single base extension (SBE) and Matrix Assisted Laser Desorption/Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS). In this study, we evaluated the accuracy and sensitivity of the iPLEX(®) Sample ID Plus Panel by comparing the typing results of the iPLEX(®) Sample ID Plus Panel with those obtained with our ISO 17025 accredited SNPforID assay. The average call rate for duplicate typing of any one SNPs in the panel was 90.0% when the mass spectra were analyzed automatically with the MassARRAY(®) TYPER 4.0 genotyping software in real time. Two reproducible inconsistencies were observed (error rate: 0.05%) at two different SNP loci. In addition, four inconsistencies were observed once. The optimal amount of template DNA in the PCR was ≥10ng. There was a relatively high risk of allele and locus drop-outs when ≤1ng template DNA was used. We developed an R script with a stringent set of "forensic analysis parameters" based on the peak height and the signal to noise data exported from the TYPER 4.0 software. With the forensic analysis parameters, all inconsistencies were eliminated in reactions with ≥10ng DNA. However, the average call rate decreased to 69.9%. The iPLEX(®) Sample ID Plus Panel was tested on 10 degraded samples from forensic case-work. Two samples could not be typed, presumably because the samples contained PCR and SBE inhibitors. The average call rate was generally lower for degraded DNA samples and the number of inconsistencies higher than for pristine DNA. However, none of the inconsistencies were reproduced and the highest match probability for the degraded samples typed with the panel was 1.7E-9 using the stringent forensic analysis parameters. Although the relatively low sensitivity of the iPLEX(®) Sample ID Plus Panel makes it inappropriate for typing of trace samples from crime scenes, the panel may be interesting for relationship testing and for identification of e.g. samples in biobanks because of the low reagent costs, the limited hands-on time of the iPLEX(®) assay and the automatic analysis of the mass spectra.

AB - Sequenom launched the first commercial SNP typing kit for human identification, named the iPLEX(®) Sample ID Plus Panel. The kit amplifies 47 of the 52 SNPs in the SNPforID panel, amelogenin and two Y-chromosome SNPs in one multiplex PCR. The SNPs were analyzed by single base extension (SBE) and Matrix Assisted Laser Desorption/Ionization-Time of Flight Mass Spectrometry (MALDI-TOF MS). In this study, we evaluated the accuracy and sensitivity of the iPLEX(®) Sample ID Plus Panel by comparing the typing results of the iPLEX(®) Sample ID Plus Panel with those obtained with our ISO 17025 accredited SNPforID assay. The average call rate for duplicate typing of any one SNPs in the panel was 90.0% when the mass spectra were analyzed automatically with the MassARRAY(®) TYPER 4.0 genotyping software in real time. Two reproducible inconsistencies were observed (error rate: 0.05%) at two different SNP loci. In addition, four inconsistencies were observed once. The optimal amount of template DNA in the PCR was ≥10ng. There was a relatively high risk of allele and locus drop-outs when ≤1ng template DNA was used. We developed an R script with a stringent set of "forensic analysis parameters" based on the peak height and the signal to noise data exported from the TYPER 4.0 software. With the forensic analysis parameters, all inconsistencies were eliminated in reactions with ≥10ng DNA. However, the average call rate decreased to 69.9%. The iPLEX(®) Sample ID Plus Panel was tested on 10 degraded samples from forensic case-work. Two samples could not be typed, presumably because the samples contained PCR and SBE inhibitors. The average call rate was generally lower for degraded DNA samples and the number of inconsistencies higher than for pristine DNA. However, none of the inconsistencies were reproduced and the highest match probability for the degraded samples typed with the panel was 1.7E-9 using the stringent forensic analysis parameters. Although the relatively low sensitivity of the iPLEX(®) Sample ID Plus Panel makes it inappropriate for typing of trace samples from crime scenes, the panel may be interesting for relationship testing and for identification of e.g. samples in biobanks because of the low reagent costs, the limited hands-on time of the iPLEX(®) assay and the automatic analysis of the mass spectra.

U2 - 10.1016/j.fsigen.2013.04.009

DO - 10.1016/j.fsigen.2013.04.009

M3 - Journal article

C2 - 23948317

VL - 7

SP - 482

EP - 487

JO - Forensic Science International: Genetics

JF - Forensic Science International: Genetics

SN - 1872-4973

IS - 5

ER -

ID: 51173426