A method for analyzing macromolecules, including peptides, polypeptides, and proteins, employing nucleic acid encoding is disclosed.

Provided herein are high-throughput, population-wide serotyping and antibody profiling assays. Disclosed variants of a Digital Serotyping assay employ next generation sequencing to measure the serotyping profile of barcoded subject serum antibodies tested against a range of DNA-tagged pathogen-derived antigens. The disclosed assay setup enables multiplexing in both the sample and antigen dimensions, generating a large multi-dimensional serotyping data set for more comprehensive serotyping profiling of large populations across a large number of antigens and possible pathogens. Moreover, the ability to easily scale and multiplex the number of peptide epitopes allows rapid updating of the assay content to monitor the ever-changing spectrum of pathogens. Additional applications of this technology include cancer immunology and autoimmune conditions (e.g., neoantigen or autoimmune profiling), screening for toxins, antibody therapeutics development, biosecurity, and veterinary medicine.

The present invention relates to compositions and methods for cancer diagnostics, including but not limited to, cancer markers. In particular, the present invention provides methods and compositions for phage microarray profiling of cancer (e.g., prostate, lung, or breast cancer). The present invention further provides novel markers useful for the diagnosis, characterization, and treatment of cancers.

Flow apparatuses comprising a separation channel, a downstream flow separator, a detection zone, an observation zone, and a waste channel. The separation channel has first and second flows in contact and allows lateral movement of components between contacting first and second flows. The downstream flow separator is in communication with the separation channel and diverts a part of the first fluid flow, the second fluid flow, or both, from the separation channel. The detection zone comprises a detection channel downstream of and in communication with the flow separator and configured to receive a plurality of diverted flows from the flow separator and a label channel configured to label the diverted flows from the flow separator. The observation zone is configured to record an analytical signal indicative of the quantity and the electrical properties of the component. The waste channel is at the downstream end of the observation zone.

Biomolecule arrays on a substrate are described which contain a plurality of biomolecules, such as coding nucleic acids and/or isolated polypeptides, at a plurality of discrete, isolated, locations. The arrays can be used, for example, in high throughput genomics and proteomics for specific uses including, but not limited molecular diagnostics for early detection, diagnosis, treatment, prognosis, monitoring clinical response, and protein crystallography.

The present invention provides compositions and methods that can be used to determine a peptide signature for an antibody repertoire in a sample comprising multiple antibodies. The method can be used to characterize a phenotype in a sample, such as providing a diagnosis, prognosis or theranosis of a medical condition.

The present invention provides a cell-based assay for identifying and/or quantifying anti-CD3 homodimers in a composition comprising a T cell-dependent Bispecific antibody (TDB). In some aspects, the invention T cells comprising a T cell activation responsive reporter are contacted with the TDB to detect the presence of anti-CD3 homodimers. Compositions of reporter T cells and kits are also contemplated.

The present disclosure provides methods and reagents useful for analyzing protein-protein interfaces such as interfaces between a presenter protein (e.g., a member of the FKBP family, a member of the cyclophilin family, or PIN1) and a target protein. In some embodiments, the target and/or presenter proteins are intracellular proteins. In some embodiments, the target and/or presenter proteins are mammalian proteins.

The present disclosure provides methods and reagents useful for analyzing protein-protein interfaces such as interfaces between a presenter protein (e.g., a member of the FKBP family, a member of the cyclophilin family, or PIN1) and a target protein. In some embodiments, the target and/or presenter proteins are intracellular proteins. In some embodiments, the target and/or presenter proteins are mammalian proteins.

The present application relates to a method of assaying ubiquitination in a sample by combining ubiquitin together with a substrate in a sample containing UBE1, UbcH3, Skp2-isoform 1, Skp1, Cull, Rbx1, Cks1, CDK2 and Cyclin E1 under conditions suitable for ubiquitination to take place, exposing the sample to a labelled binding partner which is specific for the ubiquitin, and measuring the amount of ubiquitin bound to the substrate.