Julia Khandurina scite author profile

1,4-Butanediol (BDO) is an important commodity chemical used to manufacture over 2.5 million tons annually of valuable polymers, and it is currently produced exclusively through feedstocks derived from oil and natural gas. Herein we report what are to our knowledge the first direct biocatalytic routes to BDO from renewable carbohydrate feedstocks, leading to a strain of Escherichia coli capable of producing 18 g l(-1) of this highly reduced, non-natural chemical. A pathway-identification algorithm elucidated multiple pathways for the biosynthesis of BDO from common metabolic intermediates. Guided by a genome-scale metabolic model, we engineered the E. coli host to enhance anaerobic operation of the oxidative tricarboxylic acid cycle, thereby generating reducing power to drive the BDO pathway. The organism produced BDO from glucose, xylose, sucrose and biomass-derived mixed sugar streams. This work demonstrates a systems-based metabolic engineering approach to strain design and development that can enable new bioprocesses for commodity chemicals that are not naturally produced by living cells.

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Integrated System for Rapid PCR-Based DNA Analysis in Microfluidic Devices

Khandurina

et al. 2000

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An integrated system for rapid PCR-based analysis on a microchip has been demonstrated. The system couples a compact thermal cycling assembly based on dual Peltier thermoelectric elements with a microchip gel electrophoresis platform. This configuration allows fast (approximately 1 min/ cycle) and efficient DNA amplification on-chip followed by electrophoretic sizing and detection on the same chip. An on-chip DNA concentration technique has been incorporated into the system to further reduce analysis time by decreasing the number of thermal cycles required. The concentration injection scheme enables detection of PCR products after performing as few as 10 thermal cycles, with a total analysis time of less than 20 min. The starting template copy number was less than 15 per injection volume.

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Microchip Device for Cell Lysis, Multiplex PCR Amplification, and Electrophoretic Sizing

et al. 1998

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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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UV/ozone modification of poly(dimethylsiloxane) microfluidic channels

Berdichevsky

Khandurina

Guttman

et al. 2004

Sensors and Actuators B: Chemical

280

223

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Preconcentration of Proteins on Microfluidic Devices Using Porous Silica Membranes

et al. 2004

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Fluorescently labeled proteins were electrophoretically concentrated on microfabricated devices prior to separation and laser-induced fluorescence detection on the same device. The proteins were concentrated using a porous silica membrane between adjacent microchannels that allowed the passage of buffer ions but excluded larger migrating molecules. Concentrated analytes were then injected into the separation column for analysis. Two basic microchip designs were tested that allowed sample concentration either directly in the sample injector loop or within the microchannel leading from the sample reservoir to the injector. Signal enhancements of approximately 600-fold were achieved by on-chip preconcentration followed by SDS-CGE separation. Preconcentration for CE analysis in both coated and uncoated open channels was also demonstrated. Fluorescently labeled ovalbumin could be detected at initial concentrations as low as 100 fM by using a combination of field-amplified injection and preconcentration at a membrane prior to CE in coated channels.

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