Stephanie H. I. Yeung scite author profile

How can optimum long‐range order be achieved by self‐assembly of polystyrene/polymethylmethacrylate (PS/PMMA) block copolymers? Here the film thickness, annealing temperature, annealing time, and molecular weight are varied to derive optimum values for these parameters. The Figure shows SEM images of the microstructures obtained from M = 67 000 and M = 134 000 copolymers after solvolytic PMMA removal.

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Microchip Bioprocessor for Integrated Nanovolume Sample Purification and DNA Sequencing

Paegel

2002

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A microfabricated electrophoretic bioprocessor for integrated DNA sequencing sample desalting, template removal, preconcentration, and CE analysis is presented. A low-viscosity gel capture matrix, containing an acrylamide-copolymerized oligonucleotide complementary to the 20-base sequence directly 3' of the M13-40 universal forward priming site, is introduced into the 60-nL capture chamber. Unpurified DNA sequencing reaction products are electrophoretically driven through the chamber; extension products hybridize to the matrix, while contaminating buffering ions, Cl-, excess primer, and template DNA are unretained. Purification under optimized conditions is complete in only 120 s (binding temperature 50 degrees C, driving voltage 250 V). High-speed, integrated sequencing analysis is accomplished by releasing the gel-purified duplex at 67 degrees C and directly injecting onto a 15.9-cm effective length CE microchannel. Electrophoretic resolution of the sequencing products is complete in 32 min, producing a total of 560 bp with phred quality q > or = 20 (accuracy > or = 99%). This fully integrated nanoliter process decreases the purification time approximately 10-fold and the process volume approximately 100-fold while providing state-of-the-art sequencing results.

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Real-time forensic DNA analysis at a crime scene using a portable microchip analyzer

Liu

Yeung

Crenshaw

et al. 2008

Forensic Science International: Genetics

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Integrated Sample Cleanup−Capillary Electrophoresis Microchip for High-Performance Short Tandem Repeat Genetic Analysis

et al. 2008

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An integrated PCR sample cleanup and preconcentration process is developed for forensic short tandem repeat (STR) analysis using a streptavidin-modified photopolymerized capture gel injector for microchip capillary electrophoresis (microCE). PCR samples generated with one biotinylated primer and one fluorescent primer provide the input to the streptavidin-based affinity capture-microCE device. Monoplex PCR samples processed by the device exhibited approximately 10- to 50-fold increased fluorescence intensities, and DNA profiles generated using 9-plex STR samples displayed approximately 14- to 19-fold higher signal intensities compared to those analyzed using traditional cross injection. Complete STR profiles were obtained with as few as 25 copies of DNA template using the capture-microCE device. Four DNA samples with various degrees of degradation were also tested. Samples analyzed using the capture-microCE device resulted in a significant increase of successful allele detection. The ability of our capture-microCE device and method to remove contaminating ions, to concentrate the sample injection plug, and to eliminate electrokinetic injection bias provides a powerful approach for integrating sample cleanup with DNA separation.

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