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

An integrated lab-on-a-chip system has been developed and successfully utilized for real-time forensic short tandem repeat (STR) analysis. The microdevice comprises a 160-nL polymerase chain reaction reactor with an on-chip heater and a temperature sensor for thermal cycling, microvalves for fluidic manipulation, a co-injector for sizing standard injection, and a 7-cm-long separation channel for capillary electrophoretic analysis. A 9-plex autosomal STR typing system consisting of amelogenin and eight combined DNA index system (CODIS) core STR loci has been constructed and optimized for this real-time human identification study.

Integrated sample cleanup-capillary electrophoresis microchip for high-performance short tandem repeat genetic analysis.

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.

A forensic laboratory tests the Berkeley microfabricated capillary array electrophoresis device.

Miniaturization of capillary electrophoresis onto a microchip for forensic short tandem repeat analysis is the initial step in the process of producing a fully integrated and automated analysis system. A prototype of the Berkeley microfabricated capillary array electrophoresis device was installed at the Virginia Department of Forensic Science for testing. Instrument performance was verified by PowerPlex 16 System profiling of single source, sensitivity series, mixture, and casework samples.

Rapid determination of monozygous twinning with a microfabricated capillary array electrophoresis genetic-analysis device.

Background: Microfabricated genetic-analysis devices have great potential for delivering complex clinical diagnostic technology to the point of care. As a demonstration of the potential of these devices, we used a microfabricated capillary array electrophoresis (microCAE) instrument to rapidly characterize the familial and genotypic relationship of twins who had been assigned fraternal (dizygous) status at birth.

Methods: We extracted the genomic DNA from buccal samples collected from the twin sons, the parents, another sibling, and an unrelated control individual.

Fluorescence energy transfer-labeled primers for high-performance forensic DNA profiling.

A fluorescence energy transfer (ET) dye-labeled STR typing system (ET 16-plex) is developed for the markers used in the commercial STR typing kit PowerPlex 16, and its performance assessed using a 96-lane microfabricated capillary array electrophoresis (muCAE) system. The ET 16-plex amplicons displayed 1.6-9-fold higher fluorescence intensities compared to those produced using the single-dye (SD)-labeled multiplex kits.

Rapid and high-throughput forensic short tandem repeat typing using a 96-lane microfabricated capillary array electrophoresis microdevice.

A 96-channel microfabricated capillary array electrophoresis (muCAE) device was evaluated for forensic short tandem repeat (STR) typing using PowerPlex 16 and AmpFlSTR Profiler Plus multiplex PCR systems. The high-throughput muCAE system produced high-speed <30-min parallel sample separations with single-base resolution. Forty-eight previously analyzed single-source samples were accurately typed, as confirmed on an ABI Prism 310 and/or the Hitachi FMBIO II.

Sparsely cross-linked "nanogel" matrixes as fluid, mechanically stabilized polymer networks for high-throughput microchannel DNA sequencing.

We have developed sparsely cross-linked "nanogels", subcolloidal polymer structures composed of covalently linked, linear polyacrylamide chains, as novel replaceable DNA sequencing matrixes for capillary and microchip electrophoresis. Nanogels were synthesized via inverse emulsion (water-in-oil) copolymerization of acrylamide and a low percentage (approximately 10(-4) mol %) of N,N-methylene bisacrylamide (Bis). Nanogels and nanogel networks were characterized by multiangle laser light scattering and rheometry, respectively, and tested for DNA sequencing in both capillaries and chips with four-color LIF detection.

Microchip bioprocessor for integrated nanovolume sample purification and DNA sequencing.

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.