Abstract: The present invention provides, in some embodiments, an isotachophoresis (ITP) apparatus, a kit comprising same and method of use thereof for the focusing analytes of interest from large sample volumes.

Abstract: A scanning micro-fluid device for an exchange of species with a surface and with an intermediate immersion liquid is disclosed. The device comprises a first and a second micro-channel comprising a fluid. The first micro-channel comprises a first aperture and the second micro-channel comprises a second aperture. They have a distance to each other in an apex area in proximity of the surface of a substrate. The surface, the apex area is immersed with the intermediate immersion liquid. The device also comprises a first electrode reaching into the fluid on the first micro-channel and a second electrode reaching into the fluid on the second micro-channel, and an apex electrode. Different voltage levels are applicable to the first, the second and the apex electrode such that species are interacting at surface of the substrate.

Abstract: Methods and systems are provided for characterizing responses of a ligand-functionalized surface, which rely on dispensing a segmented liquid flow including liquid sequences, each including: an analyte segment including biomolecules of analyte; a spacer segment; and a wash segment including a washing liquid, whereby spacer segments separate wash segments from analyte segments in the dispensed segmented liquid flow. A measurement cycle is performed for each of the liquid sequences of the segmented liquid flow being dispensed. A measurement cycle includes: ejecting an analyte segment of each liquid sequence toward the ligand-functionalized surface and extracting, from each liquid sequence, a spacer segment succeeding the analyte segment as the latter is being ejected; ejecting a wash segment succeeding the extracted spacer segment in each liquid sequence to flush unbound and/or weakly bound biomolecules of analytes from the surface; and reading out a signal of bound biomolecules of analytes on the surface.

Abstract: The present invention provides, in some embodiments, an isotachophoresis (ITP) apparatus, a kit comprising same and method of use thereof for the focusing analytes of interest from large sample volumes.

Abstract: A method for sequence-specifically detecting a nucleic acid molecule. The method requires: a) contacting in an absence of an electric field, a mixture of nucleic acid molecules with a base pairing hybridizing molecule (BPHM) having a sequence of interest in a first solution and obtaining a hybrid consisting the nucleic acid molecule and the BPHM; b) introducing the first solution from step (a) into an ITP system, the ITP system comprises a second solution of high effective mobility leading electrolyte (LE) ions and a third solution of low effective mobility trailing electrolyte (TE); and c) applying the electric field across the second solution and the third solution. The hybrid focus at the sharp LE-TE interface in the ITP system. The TE has a higher mobility than the BPHM and the TE has a lower mobility than the hybrid. Sequence-specifically the detecting nucleic acid molecule by a signal from a label.

Abstract: A scanning micro-fluid device for an exchange of species with a surface and with an intermediate immersion liquid is disclosed. The device comprises a first and a second micro-channel comprising a fluid. The first micro-channel comprises a first aperture and the second micro-channel comprises a second aperture. They have a distance to each other in an apex area in proximity of the surface of a substrate. The surface, the apex area is immersed with the intermediate immersion liquid. The device also comprises a first electrode reaching into the fluid on the first micro-channel and a second electrode reaching into the fluid on the second micro-channel, and an apex electrode. Different voltage levels are applicable to the first, the second and the apex electrode such that species are interacting at surface of the substrate.

Abstract: Methods and systems are provided for characterizing responses of a ligand-functionalized surface, which rely on dispensing a segmented liquid flow including liquid sequences, each including: an analyte segment including biomolecules of analyte; a spacer segment; and a wash segment including a washing liquid, whereby spacer segments separate wash segments from analyte segments in the dispensed segmented liquid flow. A measurement cycle is performed for each of the liquid sequences of the segmented liquid flow being dispensed. A measurement cycle includes: ejecting an analyte segment of each liquid sequence toward the ligand-functionalized surface and extracting, from each liquid sequence, a spacer segment succeeding the analyte segment as the latter is being ejected; ejecting a wash segment succeeding the extracted spacer segment in each liquid sequence to flush unbound and/or weakly bound biomolecules of analytes from the surface; and reading out a signal of bound biomolecules of analytes on the surface.

Abstract: A method for sequence-specifically detecting a nucleic acid molecule. The method requires: a) contacting in an absence of an electric field, a mixture of nucleic acid molecules with a base pairing hybridizing molecule (BPHM) having a sequence of interest in a first solution and obtaining a hybrid consisting the nucleic acid molecule and the BPHM; b) introducing the first solution from step (a) into an ITP system, the ITP system comprises a second solution of high effective mobility leading electrolyte (LE) ions and a third solution of low effective mobility trailing electrolyte (TE); and c) applying the electric field across the second solution and the third solution. The hybrid focus at the sharp LE-TE interface in the ITP system. The TE has a higher mobility than the BPHM and the TE has a lower mobility than the hybrid. Sequence-specifically the detecting nucleic acid molecule by a signal from a label.

Abstract: The present invention provides a system including: a peptide nucleic acid (PNA) molecule; a DNA molecule, an RNA molecule, or a combination thereof; and an Isotachophoresis (ITP) system. Furthermore, the invention provides a method for sequence-specifically separating and/or identifying a nucleic acid molecule of interest by utilizing the system of the invention to separate and possibly label and/or detect a nucleic acid molecule of interest.

Abstract: The present invention provides a system including: a peptide nucleic acid (PNA) molecule; a DNA molecule, an RNA molecule, or a combination thereof; and an Isotachophoresis (ITP) system. Furthermore, the invention provides a method for sequence-specifically separating and/or identifying a nucleic acid molecule of interest by utilizing the system of the invention to separate and possibly label and/or detect a nucleic acid molecule of interest.