An automated instrument for human STRidentification: Design, characterization, and experimental validation

Cedric Hurth; Stanley D. Smith; Alan R. Nordquist; Ralf Lenigk; Brett Duane; David Nguyen; Amol Surve; Andrew J. Hopwood; Matthew D. Estes; Jianing Yang; Zhi Cai; Xiaojia Chen; John G. Lee-Edghill; Nina Moran; Keith Elliott; Gillian Tully; Frederic Zenhausern

doi:10.1002/elps.201000305

An automated instrument for human STRidentification: Design, characterization, and experimental validation

Cedric Hurth, Stanley D. Smith, Alan R. Nordquist, Ralf Lenigk, Brett Duane, David Nguyen, Amol Surve, Andrew J. Hopwood, Matthew D. Estes, Jianing Yang, Zhi Cai, Xiaojia Chen, John G. Lee-Edghill, Nina Moran, Keith Elliott, Gillian Tully, Frederic Zenhausern^*

^*Corresponding author for this work

Analytical, Environmental & Forensic Sciences

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

32 Citations (Scopus)

Abstract

The microfluidic integration of an entire DNA analysis workflow on a fully integrated miniaturized instrument is reported using lab-on-a-chip automation to perform DNA fingerprinting compatible with CODIS standard relevant to the forensic community. The instrument aims to improve the cost, duration, and ease of use to perform a "sample-to-profile" analysis with no need for human intervention. The present publication describes the operation of the three major components of the system: the electronic control components, the microfluidic cartridge and CE microchip, and the optical excitation/detection module. Experimental details are given to characterize the level of performance, stability, reliability, accuracy, and sensitivity of the prototype system. A typical temperature profile from a PCR amplification process and an electropherogram of a commercial size standard (GeneScan 500™, Applied Biosystems) separation are shown to assess the relevance of the instrument to forensic applications. Finally, we present a profile from an automated integrated run where lysed cells from a buccal swab were introduced in the system and no further human intervention was required to complete the analysis.

Original language	English
Pages (from-to)	3510-3517
Number of pages	8
Journal	Electrophoresis
Volume	31
Issue number	21
DOIs	https://doi.org/10.1002/elps.201000305
Publication status	Published - Oct 2010

Keywords

DNA STR typing
Instrumentation
Microfluidics

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Hurth, C., Smith, S. D., Nordquist, A. R., Lenigk, R., Duane, B., Nguyen, D., Surve, A., Hopwood, A. J., Estes, M. D., Yang, J., Cai, Z., Chen, X., Lee-Edghill, J. G., Moran, N., Elliott, K., Tully, G., & Zenhausern, F. (2010). An automated instrument for human STRidentification: Design, characterization, and experimental validation. Electrophoresis, 31(21), 3510-3517. https://doi.org/10.1002/elps.201000305

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abstract = "The microfluidic integration of an entire DNA analysis workflow on a fully integrated miniaturized instrument is reported using lab-on-a-chip automation to perform DNA fingerprinting compatible with CODIS standard relevant to the forensic community. The instrument aims to improve the cost, duration, and ease of use to perform a {"}sample-to-profile{"} analysis with no need for human intervention. The present publication describes the operation of the three major components of the system: the electronic control components, the microfluidic cartridge and CE microchip, and the optical excitation/detection module. Experimental details are given to characterize the level of performance, stability, reliability, accuracy, and sensitivity of the prototype system. A typical temperature profile from a PCR amplification process and an electropherogram of a commercial size standard (GeneScan 500{\texttrademark}, Applied Biosystems) separation are shown to assess the relevance of the instrument to forensic applications. Finally, we present a profile from an automated integrated run where lysed cells from a buccal swab were introduced in the system and no further human intervention was required to complete the analysis.",

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author = "Cedric Hurth and Smith, {Stanley D.} and Nordquist, {Alan R.} and Ralf Lenigk and Brett Duane and David Nguyen and Amol Surve and Hopwood, {Andrew J.} and Estes, {Matthew D.} and Jianing Yang and Zhi Cai and Xiaojia Chen and Lee-Edghill, {John G.} and Nina Moran and Keith Elliott and Gillian Tully and Frederic Zenhausern",

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Hurth, C, Smith, SD, Nordquist, AR, Lenigk, R, Duane, B, Nguyen, D, Surve, A, Hopwood, AJ, Estes, MD, Yang, J, Cai, Z, Chen, X, Lee-Edghill, JG, Moran, N, Elliott, K, Tully, G & Zenhausern, F 2010, 'An automated instrument for human STRidentification: Design, characterization, and experimental validation', Electrophoresis, vol. 31, no. 21, pp. 3510-3517. https://doi.org/10.1002/elps.201000305

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AU - Nguyen, David

AU - Surve, Amol

AU - Hopwood, Andrew J.

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AU - Cai, Zhi

AU - Chen, Xiaojia

AU - Lee-Edghill, John G.

AU - Moran, Nina

AU - Elliott, Keith

AU - Tully, Gillian

AU - Zenhausern, Frederic

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An automated instrument for human STRidentification: Design, characterization, and experimental validation

Abstract

Keywords

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