The present invention provides a small and low running-cost device capable of minimizing the generation of contamination sources as much as possible while performing a series of all the desired manipulations. A device for manipulating a target component in a manipulation tube, comprising: a manipulation tube comprising a tube having an optionally-closeable open end for supplying a sample containing a target component at one end and a closed end at the other end, and a manipulation medium accommodated in the tube and having a gel layer and an aqueous liquid layer multilayered in a longitudinal direction of the tube; magnetic particles that should transport the target component; and magnetic field applying means capable of applying a magnetic field to the manipulation tube to move the magnetic particles in the longitudinal direction of the tube.

This document provides bead dispensing devices that can be configured to mount onto a container (e.g., a test tube containing sterile beads) and allow for a set number of beads (e.g., glass beads) to be dispensed.

An apparatus includes a device substrate including an array of sensors. Each sensor of the array of sensors can include a electrode structure disposed at a surface of the device substrate. The apparatus further includes a wall structure overlying the surface of the device substrate and defining an array of wells at least partially corresponding with the array of sensors. The well structure including an electrode layer and an insulative layer.

A pneumatically driven portable assay cartridge having analyte capture regions associated with microfluidic channels within its interior, the portable cartridge having pneumatic ports clampable against pneumatic ports of an operating instrument for controlled application of positive pressure and vacuum to pneumatic operating channels within the cartridge, the cartridge having a well for receiving sample from a user and microfluidic channels that include pneumatically operated pistons and valves controllable by the pneumatic operating channels to cause all flows of the assay from the reservoirs through reaction regions within the cartridge to on-board waste reservoir during conduct of the assay.

The present invention provides novel microfluidic devices and methods that are useful for performing high-throughput screening assays and combinatorial chemistry. The invention provides for aqueous based emulsions containing uniquely labeled cells, enzymes, nucleic acids, etc., wherein the emulsions further comprise primers, labels, probes, and other reactants. An oil based carrier-fluid envelopes the emulsion library on a microfluidic device, such that a continuous channel provides for flow of the immiscible fluids, to accomplish pooling, coalescing, mixing, sorting, detection, etc., of the emulsion library.

The disclosure generally relates to systems, methods, and apparatuses for magnetic bead loading. An example embodiment of the disclosure relates to an apparatus including a vertically oriented plate having a first major surface and a second major surface opposite the first major surface; a magnet holder securing a magnet in proximity to the first major surface of the vertically oriented plate; a drive mechanism coupled to the magnet holder and operable to move the magnet holder and magnet in parallel to the first major surface of the vertically oriented plate; and a substrate holder to receive a substrate and hold the substrate in a vertical orientation against the surface of the vertically oriented plate.