The present disclosure provides a system comprising a communication interface and computer for assigning a label to the biomolecule fingerprint, wherein the label corresponds to a biological state. The present disclosure also provides a sensor arrays for detecting biomolecules and methods of use. In some embodiments, the sensor arrays are capable of determining a disease state in a subject.

Provided herein are, inter alia, methods of identifying agents that are capable inhibiting the binding (e.g., coupling) between a ROR1 protein and a ROR2 protein. By interfering with ROR1-ROR2 coupling (binding) the agents identified using the methods provided herein inhibit non-canonical Wnt5a signaling. Thus, the agents identified by the methods provided herein may, inter alia, be useful for cancer diagnosis and therapy.

The present invention provides assays and assay systems for use in spatially encoded biological assays. The invention provides an assay system comprising an assay capable of high levels of multiplexing where reagents are provided to a biological sample in defined spatial patterns; instrumentation capable of controlled delivery of reagents according to the spatial patterns; and a decoding scheme providing a readout that is digital in nature.

Contemplated test kits and methods for food sensitivity are based on rational-based selection of food preparations with established discriminatory p-value. Particularly preferred kits include those with a minimum number of food preparations that have an average discriminatory p-value of 0.07 as determined by their raw p-value or an average discriminatory p-value of 0.10 as determined by FDR multiplicity adjusted p-value. In further contemplated aspects, compositions and methods for food sensitivity are also stratified by gender to further enhance predictive value.

A method, device and system for determining autophagic flux are claimed. The levels of proteins which change with increased or decreased autophagy are determined in a sample. The change in the level of each protein is quantified in order to obtain the autophagic flux. This can be compared to a sample flux range associated with autophagy dysfunction or ageing patterns. Diseases or conditions which may be diagnosed include neurodegenerative conditions such as Alzheimer's disease and dementia, cancer, heart conditions, immune conditions or aging-related conditions. The device for determining autophagic flux comprises a housing, receiving zones configured for receiving a substrate and a biological sample, and a set of electrodes for each receiving zone. The device is connectable to circuitry that determines an electrical property of each substrate and uses this to determine the autophagic flux.

The present invention pertains to a method for identifying anti-cancer compounds. The invention is based on the finding that a direct protein-protein interaction between 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 4 (PFKFB4) and (F-box protein 28) FBXO28 silences a ubiquitin E3 ligase activity of FBXO28 towards HIF1a. Interfering with this protein-protein interaction leads to a strong induction of HIF1a proteasomal degradation and cell death in tumors, and therefore, compounds screened according to the present invention harbour therapeutic potential for the treatment of proliferative diseases such as cancer. The invention provides a screening method for cancer therapeutics based on the interaction of PFKFB4 and FBXO28, as well medical applications thereof.

The present invention provides a method for identifying a functional antibody or antigen-binding protein or a fragment thereof that is capable of binding to, and stimulating the activity of, a target transmembrane protein comprising the steps of providing yeast cells transformed with yeast expression vectors encoding a library of antibodies or antigen-binding proteins or fragments thereof, wherein said yeast cells express said target transmembrane protein, expressing said library of antibodies or antigen-binding proteins or fragments thereof in the yeast cells, wherein said expressed antibodies or antigen-binding proteins or fragments thereof are secreted into the periplasmic space of said yeast cells, incubating the yeast cells in or on a selective medium or under a restrictive temperature, or a combination thereof, and detecting a predetermined phenotype in the yeast cells, wherein detection or manifestation of the predetermined phenotype is indicative of binding of the functional antibody or antigen-binding protein or a fragment thereof to said target transmembrane protein and stimulation of said target transmembrane protein by the functional antibody or antigen-binding protein or a fragment thereof. Antibodies or antibody fragments that are agonists of G-protein coupled receptors identified by the method of the invention are also provided.

A bioluminescent biosensor and use of such bioluminescent biosensor for providing a generic biosensor strategy allowing direct detection of biomolecules (e.g. antibodies) or ligands (e.g. small molecules) directly in solution.

The invention is a novel reporter system for measuring protein-protein interactions. The system uses a pair of functionalized coiled coil subunits that spontaneously form two separate homo-oligomers when expressed in cells. The coiled coil subunits are functionalized with fluorescent proteins and complementary interacting proteins. Upon an activation stimulus which promotes the protein-protein interaction, the interacting proteins drive the formation of multivalent aggregates of the homo-oligomers in phase-shifted droplets. The highly concentrated fluorescent proteins in these structures provide high brightness over background fluorescence and a readily observed, quantitative and dynamic indicator of the protein-protein interaction. The reporters and assay methods are amenable to cells and whole organisms.

The present invention provides methods of selecting a target for a ligand, wherein said ligand comprises a polypeptide comprising at least three reactive groups, separated by at least two loop sequences, and a molecular scaffold which forms covalent bonds with the reactive groups of the polypeptide such that at least two polypeptide loops are formed on the molecular scaffold. The present invention also provides said targets, said ligands and methods for using and manufacturing such.