Abstract: A method and apparatus for performing electrochemiluminescence assays are presented. In exemplary embodiments of the present invention an apparatus comprises an ECL-inactive electrode surface having a first assay-ligand immobilized thereon and an ECL-active microparticle having a second assay ligand immobilized thereon. In exemplary embodiments of the present invention a method comprises (a) forming a mixture comprising an electrochemiluminescent label and a microparticle having a first assay-ligand immobilized thereon, (b) applying electrochemical energy to an electrode surface in the presence of said mixture, and (c) measuring emitted electrochemiluminescence, where the microparticle is ECL-active and where the electrode surface is ECL-inactive when electrochemical energy is applied to it in the presence of said mixture.

Abstract: The present invention relates to methods, compositions, compounds and kits for detecting, measuring and modulating protein ubiquitylation via the N-end rule pathway and for identifying novel substrates, enzymes and modulators of N-end rule ubiquitylation. The present invention also relates to specific substrates of N-end rule ubiquitylation as well as activated fragments of these substrates, proteases that expose N-degrons in these substrates, ubiquitin ligases that ubiquitylate these substrates and inhibitors of the ubiquitylation of these substrates.

Abstract: The present invention relates to methods, compositions, compounds and kits for detecting, measuring and modulating protein ubiquitylation via the N-end rule pathway and for identifying novel substrates, enzymes and modulators of N-end rule ubiquitylation. The present invention also relates to specific substrates of N-end rule ubiquitylation as well as activated fragments of these substrates, proteases that expose N-degrons in these substrates, ubiquitin ligases that ubiquitylate these substrates and inhibitors of the ubiquitylation of these substrates.

Abstract: Assay modules, preferably assay cartridges, are described as are reader apparatuses which may be used to control aspects of module operation. The modules preferably comprise a detection chamber with integrated electrodes that may be used for carrying out electrode induced luminescence measurements. Methods are described for immobilizing assay reagents in a controlled fashion on these electrodes and other surfaces. Assay modules and cartridges are also described that have a detection chamber, preferably having integrated electrodes, and other fluidic components which may include sample chambers, waste chambers, conduits, vents, bubble traps, reagent chambers, dry reagent pill zones and the like. In certain preferred embodiments, these modules are adapted to receive and analyze a sample collected on an applicator stick.

Abstract: Compositions, reagents, kits, systems, system components, and methods for performing assays. More particularly, the invention relates to the use of novel combinations of reagents to provide improved assay performance.

Abstract: Compositions, reagents, kits, systems, system components, and methods for performing assays. More particularly, the invention relates to the use of novel combinations of reagents to provide improved assay performance.

Abstract: Disclosed are methods for conducting diagnostic tests for the detection of the inflammatory bowel diseases, such as Crohn's disease and ulcerative colitis. Also described are methods for monitoring a patient by administering tests of the present invention. Also described are methods for monitoring patient's treatment by administering tests of the present invention. Also described are methods for evaluating the effectiveness of a drug or a drug candidate by administering tests of the present invention to samples from patients, animal models, and cell cultures treated with a drug or a drug candidate. Also disclosed are methods for determining the usefulness of analytes, e.g. cytokines, for acting as diagnostic and monitoring markers for inflammatory bowel disease in the various methods of the invention.

Abstract: The present invention is directed to methods for extracting markers from biological samples, and to systems, devices, kits and reagents for use in such methods. The invention is also to methods, kits, reagents and compositions for measuring a plurality of different organism types in a sample. One of the specific advantages of the present invention is the ability to simultaneously extract more than one microorganism or viral particle marker in one volume from a single sample containing a complex biological matrix.

Abstract: Apparatus, systems, system components, methods, compositions, and reagents for determining the function and activity of peptides and proteins and for identifying and characterizing molecules that affect these functions and activities. More specifically, methods and reagents used to determine the various activities of peptides and proteins including their binding specificity, binding activity, their enzymatic activity and their ability to act as substrates for enzymes. The disclosed methods are especially suited for the analysis of peptide and protein function where large numbers of peptides and proteins need to be analyzed.

Abstract: Graphitic nanotubes, which include tubular fullerenes (commonly called “buckytubes”) and fibrils, which are functionalized by chemical substitution, are used as solid supports in electrogenerated chemiluminescence assays. The graphitic nanotubes are chemically modified with functional group biomolecules prior to use in an assay. Association of electrochemiluminescent ruthenium complexes with the functional group biomolecule-modified nanotubes permits detection of molecules including nucleic acids, antigens, enzymes, and enzyme substrates by multiple formats.

Abstract: Luminescence test measurements are conducted using an assay module having integrated electrodes with a reader apparatus adapted to receive assay modules, induce luminescence, preferably electrode induced luminescence, in the wells or assay regions of the assay modules and measure the induced luminescence.

Abstract: Compositions, reagents, kits, systems, system components, and methods for performing assays. More particularly, the invention relates to the use of novel combinations of reagents to provide improved assay performance.

Abstract: Luminescence test measurements are conducted using an assay module having integrated electrodes with a reader apparatus adapted to receive assay modules, induce luminescence, preferably electrode induced luminescence, in the wells or assay regions of the assay modules and measure the induced luminescence.

Abstract: The present invention relates to methods, compositions, compounds and kits for detecting, measuring and modulating protein ubiquitylation via the N-end rule pathway and for identifying novel substrates, enzymes and modulators of N-end rule ubiquitylation. The present invention also relates to specific substrates of N-end rule ubiquitylation as well as activated fragments of these substrates, proteases that expose N-degrons in these substrates, ubiquitin ligases that ubiquitylate these substrates and inhibitors of the ubiquitylation of these substrates.

Abstract: Luminescence test measurements are conducted using an assay module having integrated electrodes with a reader apparatus adapted to receive assay modules, induce luminescence, preferably electrode induced luminescence, in the wells or assay regions of the assay modules and measure the induced luminescence.

Abstract: Materials and methods are provided for producing patterned multi-array, multi-specific surfaces for use in diagnostics. The invention provides for electrochemiluminescence methods for detecting or measuring an analyte of interest. It also provides for novel electrodes for ECL assays. Materials and methods are provided for the chemical and/or physical control of conducting domains and reagent deposition for use multiply specific testing procedures.