Natalia Kroutchinina scite author profile

The steps of cell lysis, multiplex PCR amplification, and electrophoretic analysis are executed sequentially on a monolithic microchip device. The entire microchip is thermally cycled to lyse cells and to amplify DNA, and the products are then analyzed using a sieving medium for size separation and an intercalating dye for fluorescence detection. Using a standard PCR protocol, a 500-base pair (bp) region of bacteriophage lambda DNA and 154-, 264-, 346-, 410-, and 550-bp regions of E. coli genomic and plasmid DNAs are amplified. The electrophoretic analysis of the products is executed in <3 min following amplification using hydroxyethyl cellulose or poly(dimethylacrylamide) sieving gels. Product sizing is demonstrated by proportioning the amplified product with a DNA sizing ladder.

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Multiple Sample PCR Amplification and Electrophoretic Analysis on a Microchip

Waters

et al. 1998

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Polymerase chain reactions (PCRs) were carried out on as many as four DNA samples at a time on a microchip device. The PCR products were then analyzed, either individually or together on the same device, by microchip gel electrophoresis. A standard PCR protocol was used to amplify 199- and 500-base pair (bp) regions of bacteriophage lambda DNA and 346- and 410-bp regions of E. coli genomic and plasmid DNAs, respectively. Thermal lysis of the bacteria was integrated into the PCR cycle. A product sizing medium, poly(dimethylacrylamide), and an intercalating dye for fluorescence detection were used in the electrophoretic analysis of the products. PCR product sizes were determined by coelectrophoresis with marker DNA.

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PCR Amplification and Analysis of Simple Sequence Length Polymorphisms in Mouse DNA Using a Single Microchip Device

Dunn

Jacobson

Waters

et al. 2000

Analytical Biochemistry

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Untitled

Grodzinski

Liu

Chen

et al. 2001

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A Miniaturized and Integrated Plastic Thermal Chemical Reactor for Genetic Analysis

Sethu

Chan

et al. 2000

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