We have developed a compact bead-alignment device with a bead-sized microchamber on a rotating cylinder. The cylinder fits inside a tube with bead-stock pipes containing different probe-conjugated beads and holes for bead-alignment capillaries. The cylinder rotates in the tube, and the microchamber transfers a single 100-microm-diameter bead from a pipe to one of the capillaries in 10 s. By using this process repeatedly, 'bead arrays', which are miniaturized DNA probe arrays in capillaries, were successfully fabricated.
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A bead-alignment device with a bead-sized microchamber on a rotating cylinder for fabrication of a miniaturized probe array.
J Biosci Bioeng
November 2005
Hitachi, Ltd., Central Research Laboratory 1-280 Higashi-Koigakubo, Kokubunji, Tokyo 185-8601, Japan.
We have developed a compact bead-alignment device with a bead-sized microchamber on a rotating cylinder. The cylinder fits inside a tube with bead-stock pipes containing different probe-conjugated beads and holes for bead-alignment capillaries. The cylinder rotates in the tube, and the microchamber transfers a single 100-microm-diameter bead from a pipe to one of the capillaries in 10 s.
View Article and Find Full Text PDFAutomated bead alignment apparatus using a single bead capturing technique for fabrication of a miniaturized bead-based DNA probe array.
Anal Chem
July 2003
Hitachi, Ltd., Central Research Laboratory, 1-280 Higashi-Koigakubo, Kokubunji, Tokyo 185-8601, Japan.
We have developed an automated bead alignment apparatus for fabricating a bead-based DNA probe array inside a capillary. The apparatus uses 16 micro vacuum tweezers to extract single beads from among a large amount of beads in bead stock wells. It then manipulates single beads into the probe array capillaries.
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