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1.
Electrophoresis ; 31(15): 2632-40, 2010 Aug.
Article in English | MEDLINE | ID: mdl-20665921

ABSTRACT

Field-deployable detection technologies in the nation's water supplies have become a high priority in recent years. The unattended water sensor is presented which employs microfluidic chip-based gel electrophoresis for monitoring proteinaceous analytes in a small integrated sensor platform. The instrument collects samples directly from a domestic water flow. The sample is then processed in an automated microfluidic module using in-house designed fittings, microfluidic pumps and valves prior to analysis via Sandia's microChemLab module, which couples chip-based electrophoresis separations with sensitive LIF detection. The system is controlled using LabVIEW software to analyze water samples about every 12 min. The sample preparation, detection and data analysis has all been fully automated. Pressure transducers and a positive control verify correct operation of the system, remotely. A two-color LIF detector with internal standards allows corrections to migration time to account for ambient temperature changes. The initial unattended water sensor prototype is configured to detect protein biotoxins such as ricin as a first step toward a total bioanalysis capability based on protein profiling. The system has undergone significant testing at two water utilities. The design and optimization of the sample preparation train is presented with results from both laboratory and field testing.


Subject(s)
Electrophoresis, Microchip/instrumentation , Proteins/isolation & purification , Toxins, Biological/isolation & purification , Water/analysis , Animals , Chemical Warfare Agents/isolation & purification , Electrophoresis, Microchip/methods , Equipment Design , Ricin/isolation & purification
2.
Anal Chem ; 79(15): 5763-70, 2007 Aug 01.
Article in English | MEDLINE | ID: mdl-17591754

ABSTRACT

For domestic and military security, an autonomous system capable of continuously monitoring for airborne biothreat agents is necessary. At present, no system meets the requirements for size, speed, sensitivity, and selectivity to warn against and lead to the prevention of infection in field settings. We present a fully automated system for the detection of aerosolized bacterial biothreat agents such as Bacillus subtilis (surrogate for Bacillus anthracis) based on protein profiling by chip gel electrophoresis coupled with a microfluidic sample preparation system. Protein profiling has previously been demonstrated to differentiate between bacterial organisms. With the goal of reducing response time, multiple microfluidic component modules, including aerosol collection via a commercially available collector, concentration, thermochemical lysis, size exclusion chromatography, fluorescent labeling, and chip gel electrophoresis were integrated together to create an autonomous collection/sample preparation/analysis system. The cycle time for sample preparation was approximately 5 min, while total cycle time, including chip gel electrophoresis, was approximately 10 min. Sensitivity of the coupled system for the detection of B. subtilis spores was 16 agent-containing particles per liter of air, based on samples that were prepared to simulate those collected by wetted cyclone aerosol collector of approximately 80% efficiency operating for 7 min.


Subject(s)
Aerosols/chemistry , Biosensing Techniques/methods , Microbiological Techniques/methods , Microfluidics/methods , Proteins/chemistry , Spores, Bacterial/isolation & purification , Bacillus anthracis/cytology , Bacillus anthracis/immunology , Bacillus anthracis/isolation & purification , Bacillus subtilis/cytology , Bacillus subtilis/immunology , Bacillus subtilis/isolation & purification , Biosensing Techniques/instrumentation , Chromatography, Gel , Electrophoresis , Fluorescent Dyes/chemistry , Microbiological Techniques/instrumentation , Microfluidics/instrumentation , Reproducibility of Results , Sensitivity and Specificity , Spores, Bacterial/cytology , Spores, Bacterial/immunology
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