Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples

Poethe S-S, Holtel J, Biermann J-P, Riemer T, Grabmüller M, Madea B, Thiele R, Jäger R (2023)
International Journal of Molecular Sciences 24(4): 3382.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Poethe, Sara-SophieUniBi ; Holtel, Julia; Biermann, Jan-Philip; Riemer, Trine; Grabmüller, Melanie; Madea, Burkhard; Thiele, Ralf; Jäger, Richard
Abstract / Bemerkung
Forensic DNA profiles are established by multiplex PCR amplification of a set of highly variable short tandem repeat (STR) loci followed by capillary electrophoresis (CE) as a means to assign alleles to PCR products of differential length. Recently, CE analysis of STR amplicons has been supplemented by high-throughput next generation sequencing (NGS) techniques that are able to detect isoalleles bearing sequence polymorphisms and allow for an improved analysis of degraded DNA. Several such assays have been commercialised and validated for forensic applications. However, these systems are cost-effective only when applied to high numbers of samples. We report here an alternative, cost-efficient shallow-sequence output NGS assay called maSTR assay that, in conjunction with a dedicated bioinformatics pipeline called SNiPSTR, can be implemented with standard NGS instrumentation. In a back-to-back comparison with a CE-based, commercial forensic STR kit, we find that for samples with low DNA content, with mixed DNA from different individuals, or containing PCR inhibitors, the maSTR assay performs equally well, and with degraded DNA is superior to CE-based analysis. Thus, the maSTR assay is a simple, robust and cost-efficient NGS-based STR typing method applicable for human identification in forensic and biomedical contexts.
Stichworte
forensic; short tandem repeat; DNA profile; high-throughput sequencing; next generation sequencing; massive parallel sequencing; bioinformatics; degraded DNA; PCR inhibitors
Erscheinungsjahr
2023
Zeitschriftentitel
International Journal of Molecular Sciences
Band
24
Ausgabe
4
Art.-Nr.
3382
eISSN
1422-0067
Page URI
https://pub.uni-bielefeld.de/record/2988432

Zitieren

Poethe S-S, Holtel J, Biermann J-P, et al. Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples. International Journal of Molecular Sciences. 2023;24(4): 3382.
Poethe, S. - S., Holtel, J., Biermann, J. - P., Riemer, T., Grabmüller, M., Madea, B., Thiele, R., et al. (2023). Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples. International Journal of Molecular Sciences, 24(4), 3382. https://doi.org/10.3390/ijms24043382
Poethe, Sara-Sophie, Holtel, Julia, Biermann, Jan-Philip, Riemer, Trine, Grabmüller, Melanie, Madea, Burkhard, Thiele, Ralf, and Jäger, Richard. 2023. “Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples”. International Journal of Molecular Sciences 24 (4): 3382.
Poethe, S. - S., Holtel, J., Biermann, J. - P., Riemer, T., Grabmüller, M., Madea, B., Thiele, R., and Jäger, R. (2023). Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples. International Journal of Molecular Sciences 24:3382.
Poethe, S.-S., et al., 2023. Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples. International Journal of Molecular Sciences, 24(4): 3382.
S.-S. Poethe, et al., “Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples”, International Journal of Molecular Sciences, vol. 24, 2023, : 3382.
Poethe, S.-S., Holtel, J., Biermann, J.-P., Riemer, T., Grabmüller, M., Madea, B., Thiele, R., Jäger, R.: Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples. International Journal of Molecular Sciences. 24, : 3382 (2023).
Poethe, Sara-Sophie, Holtel, Julia, Biermann, Jan-Philip, Riemer, Trine, Grabmüller, Melanie, Madea, Burkhard, Thiele, Ralf, and Jäger, Richard. “Cost-Effective Next Generation Sequencing-Based STR Typing with Improved Analysis of Minor, Degraded and Inhibitor-Containing DNA Samples”. International Journal of Molecular Sciences 24.4 (2023): 3382.
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2024-04-11T13:47:42Z
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