Methods and compositions for multiplexed protein-protein interaction profiling (e.g., immunoprofiling), based on nucleic acid tagging of polypeptides (e.g., by RNA display) are described. In some embodiments the described compositions and methods utilize a library of prey polypeptide targets linked to prey RNAs encoding them, and a population of bait polypeptides, e.g., a mixture of antibodies, that bind to one or more of the prey polypeptide targets and are used to isolate and identify the bound prey polypeptide targets by amplification of their associated prey RNAs and sequencing of the corresponding cDNAs. In other embodiments the prey polypeptide targets are linked to DNA Bar Codes, which serve as unique identifiers of the tagged polypeptide.

Provided herein are methods of treating or preventing herpesvirus infection comprising modulating interactions between herpesvirus surface proteins and plasma membrane-expressed host cell proteins, as well as methods of identifying modulators of such interactions.

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.

The present invention relates to methods and kits for detection protein-protein interactions. In particular, the present invention relates to a method for detecting the binding between a first polypeptide (A) and a second polypeptide (B) in a cell comprising i) providing a cell that expresses (a) a polypeptide (GFP1-9) comprising an amino acid sequence having at least 90% of identity with the amino acid sequence selected from the group consisting of SEQ ID NO: 1-4 (b) a first fusion protein wherein the polypeptide (A) is fused to a polypeptide (GFP10) having an amino an amino acid sequence having at least 90% of identity with the amino acid sequence selected from the group consisting of SEQ ID NO:5-7 (c) a second fusion protein wherein the polypeptide (B) is fused to a polypeptide (GFP11) having an amino an amino acid sequence having at least 90% of identity with the amino acid sequence selected from the group consisting of SEQ ID NO: 8-9 and (d) an intrabody specific for the complex formed by the self-assembly of the first, second and third polypeptides (a), (b) and (c) ii) detecting the fluorescence wherein when the fluorescence is detected it is concluded that the polypeptide (A) binds to polypeptide (B) and wherein the fluorescence is not detected it is concluded that the polypeptides (A) does not bind to polypeptide (B).

Disclosed herein are methods, compositions, probes, polypeptides, assays, and kits for identifying a cysteine containing protein as a binding target for a small molecule fragment. Also disclosed herein are methods, compositions, and probes for mapping a biologically active cysteine site on a protein and screening a small molecule fragment for interaction with a cysteine containing protein.

Disclosed are peptides and methods useful for identifying and producing capture agents based on epitopes of a target. In particular, disclosed are peptides comprising an epitope, where the peptide is cross-linked, where the epitope corresponds to an epitope of a target, wherein the peptide does not include the entire target, and where the cross-link is a disulfide, preferably a disulfide that naturally occurs in the target or between added or substitute cysteines. Also disclosed are methods of preparing such peptides and methods of using such peptides. In particular, in methods of identifying a target binding compound.

Provided herein are novel calixcrowns, such as those of Formula I, which are useful for coating a solid substrate such as a protein chip, diagnostic kit or protein separation pack. Also provided herein are methods detecting protein-protein interactions with a solid substrate coated with the calixcrown herein and an immobilized protein.

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A new, stable trimeric TNF structure is disclosed with distorted symmetry which can bind to the TNFR1 receptor to attenuate signalling therefrom, which can be used in the treatment and/or prevention of diseases associated with the soluble TNF/TNFR1 interaction. Membrane-bound TNF is not affected in its ability to signal through TNFR2, and thus the new structure of TNF may be used in therapies which do not significantly raise the risk of infection or malignancy.

Disclosed herein are polynucleotides encoding ligand-inducible gene switch polypeptides, and systems comprising gene switch polypeptides for modulating the expression of a heterologous gene and an interleukin in a host cell. The compositions, methods and systems described herein facilitate ligand dependent expression of polypeptides including but not limited to cytokines and antigen binding polypeptides.

This disclosure relates to a virus-like particle in which a small molecule-protein complex is entrapped, ensuring the formation of the small molecule-protein complex under physiological conditions, while protecting the small molecule-protein complex during purification and identification. The disclosure further relates to the use of such virus-like particle for the isolation and identification of small molecule-protein complexes.