Abstract: Methods, devices, and kits for measuring multiple analytes in a sample having a broad range of concentrations using optical diffraction are disclosed. Devices, methods, and kits useful for monitoring and diagnosing diabetes, cardiovascular disease, thyroid disease, hormone-related conditions, and sepsis are also described.

Abstract: The invention relates to method, devices, and kits for measuring multiple analytes in a sample having a broad range of concentrations using optical diffraction. Devices, methods, and kits useful for monitoring and diagnosing diabetes, cardiovascular disease, thyroid disease, hormone-related conditions, and sepsis are also described.

Abstract: A chemical composition including a fluorescent polymer and a receptor that is specific for both a target biological agent and a chemical moiety including (a) a recognition element, (b) a tethering element, and (c) a property-altering element is disclosed. Both the fluorescent polymer and the receptor are co-located on a support. When the chemical moiety is bound to the receptor, the property-altering element is sufficiently close to the fluorescent polymer to alter the fluorescence emitted by the polymer. When an analyte sample is introduced, the target biological agent, if present, binds to the receptor, thereby displacing the chemical moiety from the receptor, resulting in an increase of detected fluorescence. Assays for detecting the presence of a target biological agent are also disclosed.

Abstract: Reagents and assays for kinase, phosphatase and protease enzyme activity which employ metal ion-phosphate ligand specific binding and fluorescent polymer superquenching are described. The assays provide a general platform for the measurement of kinase, phosphatase and protease enzyme activity using peptide and protein substrates. Reagents and assays based on DNA hybridization and reagents and assays for proteins which employ aptamers, antibodies and other ligands are also described.

Abstract: A chemical composition including a fluorescent polymer and a receptor that is specific for both a target biological agent and a chemical moiety including (a) a recognition element, (b) a tethering element, and (c) a property-altering element is disclosed. Both the fluorescent polymer and the receptor are co-located on a support. When the chemical moiety is bound to the receptor, the property-altering element is sufficiently close to the fluorescent polymer to alter the fluorescence emitted by the polymer. When an analyte sample is introduced, the target biological agent, if present, binds to the receptor, thereby displacing the chemical moiety from the receptor, resulting in an increase of detected fluorescence. Assays for detecting the presence of a target biological agent are also disclosed.

Abstract: Bioconjugates, kits and assays for detecting the activity of protease enzymes such as ?-secretase and caspase enzymes are described. The bioconjugates include a tether having a segment capable of recognizing and interacting with (e.g., being cleaved by) the enzyme, a fluorescer including a plurality of fluorescent species conjugated to a first location on the tether, and a quencher conjugated to a second location on the tether. The segment capable of recognizing and interacting with the protease enzyme (e.g., ?-secretase or caspase) is located between the first and second locations on the tether. The plurality of fluorescent species are associated with one another such that the quencher is capable of amplified super-quenching of the fluorescer. The assay is suitable for screening potential drugs for their efficiency in inhibiting the activity of protease enzymes such as ?-secretase in a high throughput format where the potential drugs are evaluated.

Abstract: Complexes of a biotinylated fluorescent polymer and a biotin binding protein and solid supports coated with the fluorescent polymer complexes are described. The complexes can be used as sensors for detecting biological recognition events (e.g., nucleic acid hybridization reactions or enzymatic induced polypeptide cleavage). Methods of making the complexes and methods of using the complexes for detecting the presence and/or amount of a target analyte in a sample are also described. The target analyte can be an enzyme (e.g., &bgr;-secretase) or a nucleic acid (e.g., a single stranded or double stranded nucleic acid).

Abstract: A bioconjugate comprising a fluorescer (P) linked to a quencher (Q) by a tether (T) is provided. The tether (T) includes a segment that can recognize and interact with a target biomolecule. In the absence of a specific interaction of the bioconjugate with an enzyme or other target biomolecule recognizing the bioconjugate, the fluorescence of the polymer (P) is attenuated or modified by the relatively close proximity thereto of the quencher (Q). As a consequence of the association of the bioconjugate with the target biomolecule, a reaction can occur which results in a cleavage of the bioconjugate tether and a release of the fluorescent polymer and/or quencher. This sequence of events can be followed by an enhancement or amplification of the polymer fluorescence.

Abstract: A chemical composition including a fluorescent polymer and a receptor that is specific for both a target biological agent and a chemical moiety including (a) a recognition element, (b) a tethering element, and (c) a property-altering element is disclosed. Both the fluorescent polymer and the receptor are co-located on a support. When the chemical moiety is bound to the receptor, the property-altering element is sufficiently close to the fluorescent polymer to alter the fluorescence emitted by the polymer. When an analyte sample is introduced, the target biological agent, if present, binds to the receptor, thereby displacing the chemical moiety from the receptor, resulting in an increase of detected fluorescence. Assays for detecting the presence of a target biological agent are also disclosed.