Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis

Deirdre Meldrum; W. H. Pence; S. E. Moody; D. L. Cunningham; M. Holl; Peter Wiktor; M. Saini; M. P. Moore; L. S. Jang; M. Kidd; C. Fisher; A. Cookson

Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis

Deirdre Meldrum, W. H. Pence, S. E. Moody, D. L. Cunningham, M. Holl, Peter Wiktor, M. Saini, M. P. Moore, L. S. Jang, M. Kidd, C. Fisher, A. Cookson

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

10 Scopus citations

Abstract

Over the past 5 years the Genomation Laboratory at the University of Washington has developed an automated fluid handling system called "Acapella" to prepare microliter reactions for genome analysis. Reactions such as restriction enzyme digests, polymerase chain reactions (PCRs), and sequencing reactions are prepared in glass capillaries, one per sample, with an automated system that can process 5,000 samples in 8 hours. A DNA sample is aspirated from a microplate well with a novel piezoelectric aspirator/mixer actuator, reagents are dispensed into the end of the capillary with piezoelectric reagent dispensers, all fluids inside the capillary are mixed with the piezoelectric aspirator/mixer actuator, and the capillary is off-loaded to a capillary cassette for further processing. On-going development includes new, automated modules for thermal processing of capillaries, real-time DNA quantitation, and purification of DNA inside of capillaries to prepare the samples for DNA sequencing. Applicatio ns of the technology include minimal residual disease quantification and sample preparation for DNA sequencing.

Original language	English (US)
Title of host publication	IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM
Pages	1211-1219
Number of pages	9
Volume	2
State	Published - 2001
Externally published	Yes
Event	2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics Proceedings - Como, Italy Duration: Jul 8 2001 → Jul 12 2001

Other

Other	2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics Proceedings
Country/Territory	Italy
City	Como
Period	7/8/01 → 7/12/01

Keywords

Automation
Biomechatronics
Biotechnology
Genome
Microfluidics

ASJC Scopus subject areas

General Engineering

Cite this

Meldrum, D., Pence, W. H., Moody, S. E., Cunningham, D. L., Holl, M., Wiktor, P., Saini, M., Moore, M. P., Jang, L. S., Kidd, M., Fisher, C., & Cookson, A. (2001). Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis. In IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM (Vol. 2, pp. 1211-1219)

Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis. / Meldrum, Deirdre; Pence, W. H.; Moody, S. E. et al.
IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM. Vol. 2 2001. p. 1211-1219.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Meldrum, D, Pence, WH, Moody, SE, Cunningham, DL, Holl, M, Wiktor, P, Saini, M, Moore, MP, Jang, LS, Kidd, M, Fisher, C & Cookson, A 2001, Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis. in IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM. vol. 2, pp. 1211-1219, 2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics Proceedings, Como, Italy, 7/8/01.

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author = "Deirdre Meldrum and Pence, {W. H.} and Moody, {S. E.} and Cunningham, {D. L.} and M. Holl and Peter Wiktor and M. Saini and Moore, {M. P.} and Jang, {L. S.} and M. Kidd and C. Fisher and A. Cookson",

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AU - Pence, W. H.

AU - Moody, S. E.

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AU - Holl, M.

AU - Wiktor, Peter

AU - Saini, M.

AU - Moore, M. P.

AU - Jang, L. S.

AU - Kidd, M.

AU - Fisher, C.

AU - Cookson, A.

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N2 - Over the past 5 years the Genomation Laboratory at the University of Washington has developed an automated fluid handling system called "Acapella" to prepare microliter reactions for genome analysis. Reactions such as restriction enzyme digests, polymerase chain reactions (PCRs), and sequencing reactions are prepared in glass capillaries, one per sample, with an automated system that can process 5,000 samples in 8 hours. A DNA sample is aspirated from a microplate well with a novel piezoelectric aspirator/mixer actuator, reagents are dispensed into the end of the capillary with piezoelectric reagent dispensers, all fluids inside the capillary are mixed with the piezoelectric aspirator/mixer actuator, and the capillary is off-loaded to a capillary cassette for further processing. On-going development includes new, automated modules for thermal processing of capillaries, real-time DNA quantitation, and purification of DNA inside of capillaries to prepare the samples for DNA sequencing. Applicatio ns of the technology include minimal residual disease quantification and sample preparation for DNA sequencing.

AB - Over the past 5 years the Genomation Laboratory at the University of Washington has developed an automated fluid handling system called "Acapella" to prepare microliter reactions for genome analysis. Reactions such as restriction enzyme digests, polymerase chain reactions (PCRs), and sequencing reactions are prepared in glass capillaries, one per sample, with an automated system that can process 5,000 samples in 8 hours. A DNA sample is aspirated from a microplate well with a novel piezoelectric aspirator/mixer actuator, reagents are dispensed into the end of the capillary with piezoelectric reagent dispensers, all fluids inside the capillary are mixed with the piezoelectric aspirator/mixer actuator, and the capillary is off-loaded to a capillary cassette for further processing. On-going development includes new, automated modules for thermal processing of capillaries, real-time DNA quantitation, and purification of DNA inside of capillaries to prepare the samples for DNA sequencing. Applicatio ns of the technology include minimal residual disease quantification and sample preparation for DNA sequencing.

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KW - Biomechatronics

KW - Biotechnology

KW - Genome

KW - Microfluidics

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M3 - Conference contribution

AN - SCOPUS:0034858529

VL - 2

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BT - IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM

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ER -

Automated, integrated modules for fluid handling, thermal cycling and purification of DNA samples for high throughput sequencing and analysis

Abstract

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Keywords

ASJC Scopus subject areas

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