Construction and evaluation of a capillary array DNA sequencer based on a micromachined sheath-flow cuvette

Crabtree, H. John; Bay, Sue; Lewis, Darren; Zhang, Jianzhong; Coulson, Larry D.; Fitzpatrick, Glen; Delinger, Scott L.; Harrison, D. Jed; Dovic̀hi, Norman J.

doi:10.1002/(sici)1522-2683(20000401)21:7<1329::aid-elps1329>3.3.co;2-u

Cited by 16 publications

(31 citation statements)

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“…Microfluidic chip-based platforms have become increasingly popular in recent years for applications such as separation and detection, [1][2][3][4][5] PCR and/or DNA analysis, [6][7][8][9][10][11] and cell manipulation [12][13][14] owing to the speed of chip-based processes and the potential for very-large-scale integration. Using microfluidic devices for applications involving biological cells has been motivated by the potential for integrating manipulation and analysis steps, as well as increased sampling throughput and efficiency.…”

Section: Introductionmentioning

confidence: 99%

Programmable modification of cell adhesion and zeta potential in silica microchips

et al. 2003

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Spatial patterning of thin polyacrylamide films bonded to self-assembled monolayers on silica microchannels is described as a means for manipulating cell-adhesion and electroosmotic properties in microchips. Streaming potential measurements indicate that the zeta potential is reduced by at least two orders of magnitude at biological pH, and the adhesion of several kinds of cells is reduced by 80-100%. Results are shown for cover slides and in wet-etched silica microchannels. Because the polyacrylamide film is thin and transparent, this film is consistent with optical manipulation of cells and detection of cell contents. The spatial patterning technique is straightforward and has the potential to aid on-chip analysis of single adherent cells.

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Section: Introductionmentioning

confidence: 99%

Programmable modification of cell adhesion and zeta potential in silica microchips

et al. 2003

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“…The cuvette's internal diameter is a balance between sheath‐flow buffer consumption and the requirement that any wall scattering can be spatially filtered in the detector. Cuvette materials vary but the majority are fabricated as a square cross‐section quartz tube that minimizes wall luminescence and permits transverse (90°) excitation/emission optical paths. The flat and relatively thin walls of the quartz cuvette also eliminate optical aberrations observed with on‐column detection and allow the use of large numerical aperture collection objectives to maximize S/N.…”

Section: Introductionmentioning

confidence: 99%

Fiber optic illumination of a poly(dimethylsiloxane) sheath flow cuvette for diode laser induced fluorescence detection in capillary electrophoresis

Skinner

2015

Electrophoresis

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A Tee configuration sheath flow cuvette with square cross-section channels has been produced in PDMS for CE detection. The output of a 1.4 W laser diode operating at 450 nm was focused onto the 300 μm core of a 370 μm od fiber optic whose end was inserted into one arm of the Tee for LIF. The optimal configuration had the fiber optic positioned 500 μm downstream from the intersection and the end of the 35 cm 50 μm id 365 μm od capillary just outside the intersection and in the leg of the Tee, resulting in a 90° configuration. Detection limits of 50 and 3 pM and linear calibrations of at least three orders of magnitude were obtained for Lucifer Yellow and fluorescein, respectively.

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“…However, practical implementations of the side illumination schemes suffer from a nonuniform illumination of the capillary channels caused by reflection and refraction of the laser beam on the walls of individual capillaries. This problem was overcome with the introduction of sheath-flow [12][13][14][15][16], a method where the laser beam illuminates DNA bands when they eluted the LMCA; and laminar flow of the gel around the capillary outlets prevents broadening of the separated DNA bands. For several years sheath-flow method dominated in largescale DNA sequencing (ABI Prism-3700 machine).…”

Section: Introductionmentioning

confidence: 99%

Novel design of multicapillary arrays for high‐throughput DNA sequencing

et al. 2006

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A novel approach to design and optimize linear multicapillary arrays (LMCAs) for high-throughput DNA sequencing is proposed. A significant increase in the number of capillary lanes is obtained due to the use of composite insertions alternately placed between working capillaries of the array and a specific combination of refractive indices of the DNA separation matrix, capillary glass, the insertions and a medium which surrounds the capillary array. Theoretical and experimental studies showed that in conjunction with a dual-side laser illumination scheme, the proposed LMCA design allows a simultaneous uniform irradiation of as many as 550 working capillaries.

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Construction and evaluation of a capillary array DNA sequencer based on a micromachined sheath-flow cuvette

Cited by 16 publications

References 0 publications

Programmable modification of cell adhesion and zeta potential in silica microchips

Programmable modification of cell adhesion and zeta potential in silica microchips

Fiber optic illumination of a poly(dimethylsiloxane) sheath flow cuvette for diode laser induced fluorescence detection in capillary electrophoresis

Novel design of multicapillary arrays for high‐throughput DNA sequencing

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