Abstract: Methods of detecting a leak from a subarray of a microarray chip, kits of components that facilitate leak detection, and microarray chips configured for leak detection are disclosed herein. The methods include positioning, within the given subarray, a sample solution, which includes dissolved sample molecules (DSMs) that define a dissolved sample oligonucleotide sequence and dissolved leak detection molecules (DLDMs) that define a predetermined dissolved leak detection oligonucleotide sequence. The methods also include detecting the DLDMs within a region of the microarray chip that is external the given subarray. The kits of components include the microarray chip and DLDMs. The microarray chips includes a plurality of subarrays and a leak detection region that is at least partially external the plurality of subarrays.

Abstract: The present invention concerns methods, compositions and apparatus for detection and/or determination of concentration of target molecules. In preferred embodiments the methods comprise allowing target molecules to form a complex with a first binding agent conjugated to a detection molecule and a second binding agent conjugated to a capture molecule, allowing the complex to further bind to an essentially uncharged polymer capable of binding to the capture agent, and performing a vertical gradient electrophoresis to separate the complex from unbound target, first and second binding agents and polymer. The intact complex is concentrated by electrophoresis at a stacking layer and the detection molecule is detected and/or quantified. Because the complex contains a very high mass to charge ratio, it becomes essentially immobile at the stacking layer, while unbound components migrate through the stacking layer and are separated from the complex.

Abstract: Embodiments herein concern systems, methods, compositions and apparatus for detection and/or determination of the presence and/or concentration of target molecules in a sample. In certain embodiments, target molecules can be separated and analyzed using non-gel electrophoresis technologies.

Abstract: Embodiments herein concern systems, methods, compositions and apparatus for detection and/or determination of the presence and/or concentration of target molecules in a sample. In certain embodiments, target molecules can be separated and analyzed using non-gel electrophoresis technologies.

Abstract: The present invention concerns methods, compositions and apparatus for detection and/or determination of concentration of target molecules. In preferred embodiments the methods comprise allowing target molecules to form a complex with a first binding agent conjugated to a detection molecule and a second binding agent conjugated to a capture molecule, allowing the complex to further bind to an essentially uncharged polymer capable of binding to the capture agent, and performing a vertical gradient electrophoresis to separate the complex from unbound target, first and second binding agents and polymer. The intact complex is concentrated by electrophoresis at a stacking layer and the detection molecule is detected and/or quantified. Because the complex contains a very high mass to charge ratio, it becomes essentially immobile at the stacking layer, while unbound components migrate through the stacking layer and are separated from the complex.