Autonomous high throughput real time PCR platform for large scale environmental monitoring

Tathagata Ray; Andrew Hatch; Kelly Lintecum; Shih-Hui Chao; Cody Youngbull

Autonomous high throughput real time PCR platform for large scale environmental monitoring

Tathagata Ray, Andrew Hatch, Kelly Lintecum, Shih-Hui Chao, Cody Youngbull

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

Abstract

We present the design and development of a continuous flow, semi-autonomous, quantitative Polymerase Chain Reaction (qPCR) system. This battery-powered system operates under programmable control and is able to detect many different primer probe combinations as is required for environmental analyses. Our design focuses on a system with re-usable components for low levels of consumables, automated fluid handling and low power consumption. It also maintains user control over essential parameters including sample volume, temperature, and cycle time. We use a two-phase emulsion system connected to a continuous flow, two-temperature zone cylindrical thermocycler. The fluorescence from each channel is excited using an LED coupled through a fiber optic bundle and emission detected using optical fiber coupling to a 64 channel PMT. Data collection and quantitative PCR analysis is performed using a laptop computer. This platform can be transported for in-situ field applications.

Original language	English (US)
Title of host publication	Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013
Pages	85-88
Number of pages	4
State	Published - Aug 9 2013
Event	Nanotechnology 2013: Bio Sensors, Instruments, Medical, Environment and Energy - 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013 - Washington, DC, United States Duration: May 12 2013 → May 16 2013

Publication series

Name	Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013
Volume	3

Other

Other	Nanotechnology 2013: Bio Sensors, Instruments, Medical, Environment and Energy - 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013
Country/Territory	United States
City	Washington, DC
Period	5/12/13 → 5/16/13

Keywords

Continuous flow
Emulsion
High throughput
PMT
Real-time PCR

ASJC Scopus subject areas

Biotechnology

Cite this

Ray, T., Hatch, A., Lintecum, K., Chao, S-H., & Youngbull, C. (2013). Autonomous high throughput real time PCR platform for large scale environmental monitoring. In Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013 (pp. 85-88). (Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013; Vol. 3).

Autonomous high throughput real time PCR platform for large scale environmental monitoring. / Ray, Tathagata; Hatch, Andrew; Lintecum, Kelly et al.
Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013. 2013. p. 85-88 (Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013; Vol. 3).

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

Ray, T, Hatch, A, Lintecum, K, Chao, S-H & Youngbull, C 2013, Autonomous high throughput real time PCR platform for large scale environmental monitoring. in Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013. Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013, vol. 3, pp. 85-88, Nanotechnology 2013: Bio Sensors, Instruments, Medical, Environment and Energy - 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2013, Washington, DC, United States, 5/12/13.

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abstract = "We present the design and development of a continuous flow, semi-autonomous, quantitative Polymerase Chain Reaction (qPCR) system. This battery-powered system operates under programmable control and is able to detect many different primer probe combinations as is required for environmental analyses. Our design focuses on a system with re-usable components for low levels of consumables, automated fluid handling and low power consumption. It also maintains user control over essential parameters including sample volume, temperature, and cycle time. We use a two-phase emulsion system connected to a continuous flow, two-temperature zone cylindrical thermocycler. The fluorescence from each channel is excited using an LED coupled through a fiber optic bundle and emission detected using optical fiber coupling to a 64 channel PMT. Data collection and quantitative PCR analysis is performed using a laptop computer. This platform can be transported for in-situ field applications.",

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AB - We present the design and development of a continuous flow, semi-autonomous, quantitative Polymerase Chain Reaction (qPCR) system. This battery-powered system operates under programmable control and is able to detect many different primer probe combinations as is required for environmental analyses. Our design focuses on a system with re-usable components for low levels of consumables, automated fluid handling and low power consumption. It also maintains user control over essential parameters including sample volume, temperature, and cycle time. We use a two-phase emulsion system connected to a continuous flow, two-temperature zone cylindrical thermocycler. The fluorescence from each channel is excited using an LED coupled through a fiber optic bundle and emission detected using optical fiber coupling to a 64 channel PMT. Data collection and quantitative PCR analysis is performed using a laptop computer. This platform can be transported for in-situ field applications.

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ER -

Autonomous high throughput real time PCR platform for large scale environmental monitoring

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Keywords

ASJC Scopus subject areas

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