The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives

Walther Parson; Anita Brandstätter; Antonio Alonso; Nathalie Brandt; Bernd Brinkmann; Angel Carracedo; Daniel Corach; Olivier Froment; Ivana Furac; Tomasz Grzybowski; Karin Hedberg; Christine Keyser-Tracqui; Tomasz Kupiec; Sabine Lutz-Bonengel; Bente Mevag; Rafal Ploski; Hermann Schmitter; Peter Schneider; Denise Syndercombe-Court; Eric Sørensen; Heather Thew; Gillian Tully; Richard Scheithauer

doi:10.1016/j.forsciint.2003.11.008

The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives

Walther Parson^*, Anita Brandstätter, Antonio Alonso, Nathalie Brandt, Bernd Brinkmann, Angel Carracedo, Daniel Corach, Olivier Froment, Ivana Furac, Tomasz Grzybowski, Karin Hedberg, Christine Keyser-Tracqui, Tomasz Kupiec, Sabine Lutz-Bonengel, Bente Mevag, Rafal Ploski, Hermann Schmitter, Peter Schneider, Denise Syndercombe-Court, Eric SørensenHeather Thew, Gillian Tully, Richard Scheithauer

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

This paper presents an overview of the organisation and the results of the collaborative exercises (CE) of the European DNA Profiling (EDNAP) Group's mitochondrial DNA population database project (EMPOP). The aim of the collaborative exercises was to determine whether uniformity of mtDNA sequencing results could be achieved among different laboratories. These were asked to sequence either the complete mtDNA control region or the two hypervariable regions HVI (16024-16365) and HVII (73-340) from DNA extracts, buccal swabs or bloodstains, proceeding in accordance with the protocol and strategies used in each individual laboratory. The results of the collaborative exercises were employed to identify possible sources of errors that could arise during the analysis and interpretation of mtDNA profiles. These findings were taken as a basis to tentatively make suitable arrangements for the construction of a high quality mtDNA database. One hundred fifty mtDNA profiles were submitted to the evaluating laboratory, and disaccording profiles were classified into four groups corresponding to the source of error: clerical errors, sample mix-ups, contaminations and discrepancies with respect to the mtDNA nomenclature. Overall, 14 disaccording haplotypes (16 individual errors) were observed. The errors included 10 clerical errors, 3 interpretation problems, 2 cases of sample mix-up and 1 case of point heteroplasmic mixture, where the 2 sequencing reactions brought inconsistent base calls. This corresponds to an error rate of 10.7% in a virtual mtDNA database consisting of the collaborative exercise results. However, this estimate is still conservative compared to conclusions drawn by authors of meanwhile numerous publications critically reviewing published mtDNA population databases. Our results and earlier published concerns strongly emphasize the need for appropriate safety regulations when mtDNA profiles are compiled for database purposes in order to accomplish the high standard required for mtDNA databases that are used in the forensic context.

Original language	English
Pages (from-to)	215-226
Number of pages	12
Journal	Forensic Science International
Volume	139
Issue number	2-3
DOIs	https://doi.org/10.1016/j.forsciint.2003.11.008
Publication status	Published - 28 Jan 2004

Keywords

Collaborative exercise
Forensic
Heteroplasmy
Mitochondrial DNA sequence analysis
Quality score sequence analysis

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10.1016/j.forsciint.2003.11.008

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Parson, W., Brandstätter, A., Alonso, A., Brandt, N., Brinkmann, B., Carracedo, A., Corach, D., Froment, O., Furac, I., Grzybowski, T., Hedberg, K., Keyser-Tracqui, C., Kupiec, T., Lutz-Bonengel, S., Mevag, B., Ploski, R., Schmitter, H., Schneider, P., Syndercombe-Court, D., ... Scheithauer, R. (2004). The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives. Forensic Science International, 139(2-3), 215-226. https://doi.org/10.1016/j.forsciint.2003.11.008

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title = "The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives",

abstract = "This paper presents an overview of the organisation and the results of the collaborative exercises (CE) of the European DNA Profiling (EDNAP) Group's mitochondrial DNA population database project (EMPOP). The aim of the collaborative exercises was to determine whether uniformity of mtDNA sequencing results could be achieved among different laboratories. These were asked to sequence either the complete mtDNA control region or the two hypervariable regions HVI (16024-16365) and HVII (73-340) from DNA extracts, buccal swabs or bloodstains, proceeding in accordance with the protocol and strategies used in each individual laboratory. The results of the collaborative exercises were employed to identify possible sources of errors that could arise during the analysis and interpretation of mtDNA profiles. These findings were taken as a basis to tentatively make suitable arrangements for the construction of a high quality mtDNA database. One hundred fifty mtDNA profiles were submitted to the evaluating laboratory, and disaccording profiles were classified into four groups corresponding to the source of error: clerical errors, sample mix-ups, contaminations and discrepancies with respect to the mtDNA nomenclature. Overall, 14 disaccording haplotypes (16 individual errors) were observed. The errors included 10 clerical errors, 3 interpretation problems, 2 cases of sample mix-up and 1 case of point heteroplasmic mixture, where the 2 sequencing reactions brought inconsistent base calls. This corresponds to an error rate of 10.7% in a virtual mtDNA database consisting of the collaborative exercise results. However, this estimate is still conservative compared to conclusions drawn by authors of meanwhile numerous publications critically reviewing published mtDNA population databases. Our results and earlier published concerns strongly emphasize the need for appropriate safety regulations when mtDNA profiles are compiled for database purposes in order to accomplish the high standard required for mtDNA databases that are used in the forensic context.",

keywords = "Collaborative exercise, Forensic, Heteroplasmy, Mitochondrial DNA sequence analysis, Quality score sequence analysis",

author = "Walther Parson and Anita Brandst{\"a}tter and Antonio Alonso and Nathalie Brandt and Bernd Brinkmann and Angel Carracedo and Daniel Corach and Olivier Froment and Ivana Furac and Tomasz Grzybowski and Karin Hedberg and Christine Keyser-Tracqui and Tomasz Kupiec and Sabine Lutz-Bonengel and Bente Mevag and Rafal Ploski and Hermann Schmitter and Peter Schneider and Denise Syndercombe-Court and Eric S{\o}rensen and Heather Thew and Gillian Tully and Richard Scheithauer",

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doi = "10.1016/j.forsciint.2003.11.008",

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Parson, W, Brandstätter, A, Alonso, A, Brandt, N, Brinkmann, B, Carracedo, A, Corach, D, Froment, O, Furac, I, Grzybowski, T, Hedberg, K, Keyser-Tracqui, C, Kupiec, T, Lutz-Bonengel, S, Mevag, B, Ploski, R, Schmitter, H, Schneider, P, Syndercombe-Court, D, Sørensen, E, Thew, H, Tully, G & Scheithauer, R 2004, 'The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives', Forensic Science International, vol. 139, no. 2-3, pp. 215-226. https://doi.org/10.1016/j.forsciint.2003.11.008

TY - JOUR

T1 - The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises

T2 - Organisation, results and perspectives

AU - Parson, Walther

AU - Brandstätter, Anita

AU - Alonso, Antonio

AU - Brandt, Nathalie

AU - Brinkmann, Bernd

AU - Carracedo, Angel

AU - Corach, Daniel

AU - Froment, Olivier

AU - Furac, Ivana

AU - Grzybowski, Tomasz

AU - Hedberg, Karin

AU - Keyser-Tracqui, Christine

AU - Kupiec, Tomasz

AU - Lutz-Bonengel, Sabine

AU - Mevag, Bente

AU - Ploski, Rafal

AU - Schmitter, Hermann

AU - Schneider, Peter

AU - Syndercombe-Court, Denise

AU - Sørensen, Eric

AU - Thew, Heather

AU - Tully, Gillian

AU - Scheithauer, Richard

PY - 2004/1/28

Y1 - 2004/1/28

N2 - This paper presents an overview of the organisation and the results of the collaborative exercises (CE) of the European DNA Profiling (EDNAP) Group's mitochondrial DNA population database project (EMPOP). The aim of the collaborative exercises was to determine whether uniformity of mtDNA sequencing results could be achieved among different laboratories. These were asked to sequence either the complete mtDNA control region or the two hypervariable regions HVI (16024-16365) and HVII (73-340) from DNA extracts, buccal swabs or bloodstains, proceeding in accordance with the protocol and strategies used in each individual laboratory. The results of the collaborative exercises were employed to identify possible sources of errors that could arise during the analysis and interpretation of mtDNA profiles. These findings were taken as a basis to tentatively make suitable arrangements for the construction of a high quality mtDNA database. One hundred fifty mtDNA profiles were submitted to the evaluating laboratory, and disaccording profiles were classified into four groups corresponding to the source of error: clerical errors, sample mix-ups, contaminations and discrepancies with respect to the mtDNA nomenclature. Overall, 14 disaccording haplotypes (16 individual errors) were observed. The errors included 10 clerical errors, 3 interpretation problems, 2 cases of sample mix-up and 1 case of point heteroplasmic mixture, where the 2 sequencing reactions brought inconsistent base calls. This corresponds to an error rate of 10.7% in a virtual mtDNA database consisting of the collaborative exercise results. However, this estimate is still conservative compared to conclusions drawn by authors of meanwhile numerous publications critically reviewing published mtDNA population databases. Our results and earlier published concerns strongly emphasize the need for appropriate safety regulations when mtDNA profiles are compiled for database purposes in order to accomplish the high standard required for mtDNA databases that are used in the forensic context.

AB - This paper presents an overview of the organisation and the results of the collaborative exercises (CE) of the European DNA Profiling (EDNAP) Group's mitochondrial DNA population database project (EMPOP). The aim of the collaborative exercises was to determine whether uniformity of mtDNA sequencing results could be achieved among different laboratories. These were asked to sequence either the complete mtDNA control region or the two hypervariable regions HVI (16024-16365) and HVII (73-340) from DNA extracts, buccal swabs or bloodstains, proceeding in accordance with the protocol and strategies used in each individual laboratory. The results of the collaborative exercises were employed to identify possible sources of errors that could arise during the analysis and interpretation of mtDNA profiles. These findings were taken as a basis to tentatively make suitable arrangements for the construction of a high quality mtDNA database. One hundred fifty mtDNA profiles were submitted to the evaluating laboratory, and disaccording profiles were classified into four groups corresponding to the source of error: clerical errors, sample mix-ups, contaminations and discrepancies with respect to the mtDNA nomenclature. Overall, 14 disaccording haplotypes (16 individual errors) were observed. The errors included 10 clerical errors, 3 interpretation problems, 2 cases of sample mix-up and 1 case of point heteroplasmic mixture, where the 2 sequencing reactions brought inconsistent base calls. This corresponds to an error rate of 10.7% in a virtual mtDNA database consisting of the collaborative exercise results. However, this estimate is still conservative compared to conclusions drawn by authors of meanwhile numerous publications critically reviewing published mtDNA population databases. Our results and earlier published concerns strongly emphasize the need for appropriate safety regulations when mtDNA profiles are compiled for database purposes in order to accomplish the high standard required for mtDNA databases that are used in the forensic context.

KW - Collaborative exercise

KW - Forensic

KW - Heteroplasmy

KW - Mitochondrial DNA sequence analysis

KW - Quality score sequence analysis

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DO - 10.1016/j.forsciint.2003.11.008

M3 - Article

C2 - 15040920

AN - SCOPUS:10744221812

SN - 0379-0738

VL - 139

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EP - 226

JO - Forensic Science International

JF - Forensic Science International

IS - 2-3

ER -

The EDNAP mitochondrial DNA population database (EMPOP) collaborative exercises: Organisation, results and perspectives

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Keywords

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