The present invention generally relates to droplet libraries and to systems and methods for the formation of libraries of droplets. The present invention also relates to methods utilizing these droplet libraries in various biological, chemical, or diagnostic assays.

A multifunctional biosensor is described that is configured to simultaneously detect two or more different types of chemical, biological and/or radiological/nuclear (CBRN) threats on one platform using FRET-based and/or NSET-based technology.

A multifunctional biosensor is described that is configured to simultaneously detect two or more different types of chemical, biological and/or radiological/nuclear (CBRN) threats on one platform using FRET-based and/or NSET-based technology.

Aspects of the disclosure provide methods of identifying and sequencing proteins, polypeptides, and amino acids, and compositions useful for the same. In some aspects, the disclosure provides amino acid recognition molecule compositions, such as amino acid binding proteins comprising different labels, and methods of polypeptide sequencing using such compositions.

Aspects of the disclosure provide methods of identifying and sequencing proteins, polypeptides, and amino acids, and compositions useful for the same. In some aspects, the disclosure provides amino acid recognition molecule compositions, such as amino acid binding proteins comprising different labels, and methods of polypeptide sequencing using such compositions.

The present invention is directed to improved methods for conducting immunoassays. The methods are designed to amplify signals in immunoassays and anchor immunoassay complexes employed therein.

The present invention is directed to improved methods for conducting immunoassays. The methods are designed to amplify signals in immunoassays and anchor immunoassay complexes employed therein.

The present disclosure provides, inter alia, genetically encoded recombinant peptide biosensors comprising analyte-binding framework portions and signaling portions, wherein the signaling portions are present within the framework portions at sites or amino acid positions that undergo a conformational change upon interaction of the framework portion with an analyte.

Corona Phase Molecular Recognition (CoPhMoRe) utilizing a template heteropolymer adsorbed onto and templated by a nanoparticle surface to recognize a specific target analyte can be used for macromolecular analytes, including proteins.

Disclosed is a FRET based assay and related products. The assay employs molecular imprinted polymers having a very high affinity for their target.