A flow cell comprises a top structure including a first set of luer fittings, channels coupled to the first set of luer fittings, where the channels include flow-through cylindrical electrodes, electrical connectors connected to the electrodes to connect to at least one external circuit, and a second set of luer fitting to attach to the channels and to external fluid connectors, and a bottom structure including a set of luer fitting receptacles to connect to the first set of luer fittings, optical windows to transmit in light from a light source and to transmit out scattered light from a sample for detection and analysis, and indexing surfaces to index on an external electrophoretic mobility measurement instrument.

A system comprising a protein and a channel. The channel has a domain that binds a membranal component. The channel is configured to carry a liquid sample to an isotachophoresis (ITP) apparatus. The liquid sample comprising or suspected of comprising a cell, a cell membrane or a fraction of a cell membrane. The ITP apparatus comprises a first zone and a second zone. The first zone is configured to contain a solution of high effective mobility leading electrolyte (LE) ion. The second zone is configured to contain a solution of low effective mobility trailing electrolyte (TE) ion. The first zone and the second zone are configured to be operably connected to at least one anode and at least one cathode.

The present invention provides a system including: a protein having a domain that binds a membranal component; an inlet for sample flow, an Isotachophoresis (ITP) system and a flow generating means connected or coupled to the aqueous parts of the ITP. The invention also provides a method for detecting and or sorting cells with this system.

Provided is the processing of sample fluids containing one or more analytes of interest and to methods and devices for separating and/or purifying components of a sample fluid using electric and hydrodynamic forces. Though the fluid processing systems and methods are generally described herein as applied to microfluidics, it will be appreciated that the fluid processing systems may process any fluid volume suitable for use in embodiments described herein. Y-shaped and multiple-branched shaped 2-D EFD devices have been used to separate and/or purify one or more analytes from a mixture. Systems and methods in accordance with various aspects of the present teachings utilize hydrodynamic pressure (e.g., using a pump) to drive the sample liquid from the sample inlet to the separation stream, and can, in some aspects, provide improved control of the movement of the analytes, improved processing times, and decreased buffer depletion.

The present invention provides a system including: a protein having a domain that binds a membranal component; an inlet for sample flow, an Isotachophoresis (ITP) system and a flow generating means connected or coupled to the aqueous parts of the ITP. The invention also provides a method for detecting and or sorting cells with this system.

Apparatuses and methods for manipulating droplets are disclosed. In one embodiment, an apparatus for manipulating droplets is provided, the apparatus including a substrate, multiple arrays of electrodes disposed on the substrate, wherein corresponding electrodes in each array are connected to a common electrical signal, and a dielectric layer disposed on the substrate first side surface and patterned to cover the electrodes.

A method for analyzing a component is provided. The method includes the steps of: (iii) providing the electrophoretic or thermophoretic movement of the component into a second fluid flow; (iv) diverting a part of a first fluid flow, a part of the second fluid flow, or parts of the first fluid flow and the second fluid flow, wherein the diverted part is a third fluid flow which includes, the component; (v) contacting the third fluid flow with a fourth fluid flow, such as to form a laminar flow; (vi) providing the diffusion of the component into the fourth fluid flows.

An ITP-based system and a method are provided. ITP is used to focus a sample of interest and deliver a high concentration target to a pre-functionalized surface comprising immobilized probes, thus enabling rapid reaction at the sensor site.

Various embodiments of the teachings relate to a system or method for sample preparation or analysis in biochemical or molecular biology procedures. The sample preparation can involve small volume processed in discrete portions or segments or slugs, herein referred to as discrete volumes. A molecular biology procedure can be nucleic acid analysis. Nucleic acid analysis can be an integrated DNA amplification/DNA sequencing procedure.