Abstract: The present invention provides methods and kits for identifying interactions between a test compound and a phage-displayed polypeptide, wherein the phage-displayed polypeptide is not a kinase but a protein domain of interest, such as an SH2 domain of interest. The protein domain of interest is displayed on the phage, and the interactions are evaluated in the presence of a reference ligand and in the presence and absence of the test compound.

Abstract: The present disclosure provides a compound screening method comprising screening a test compound that binds a target protein of interest and another ligand protein that is not previously known to form a complex, comprising, (i) in the presence and absence of a test compound, incubating an immobilized ligand protein with a target protein of interest, comprising a nucleic acid tag, wherein the protein of interest and the nucleic acid tag differ from each other; (ii) removing unbound target protein of interest; and (iii) detecting the presence or absence of complex between the immobilized ligand protein, test compound, and the target protein of interest, wherein an increase in the amount of target protein of interest bound to the immobilized ligand protein in the presence of test compound as compared to the absence of test compound indicates the test compound binds to and enables protein-protein complex formation between the immobilized ligand protein and the target protein of interest.

Abstract: The invention provides methods for determining the interactions between phage-displayed proteins and test molecules. The phage-displayed proteins are contacted with a reference moiety in the presence and absence of a test molecule; the behavior of the phage-displayed proteins as a function of concentration of the test molecule permits calculation of the binding affinity of the phage-displayed protein for the test molecule.

Abstract: Provided herein are assays useful, for example, for determining the activity of a protein involved in a cellular process. In some embodiments, the activity of the protein is assessed using a nucleic acid tag, and in particular, by detecting the presence of a nucleic acid tag. Such assays can be used, for example, to study the effects of test compounds as modulators, e.g., inhibitors, agonists and antagonists, of protein activity.

Abstract: Provided herein are assays useful, for example, for determining the activity of a protein involved in a cellular process. In some embodiments, the activity of the protein is assessed using a nucleic acid tag, and in particular, by detecting the presence of a nucleic acid tag. Such assays can be used, for example, to study the effects of test compounds as modulators, e.g., inhibitors, agonists and antagonists, of protein activity.

Abstract: The present invention provides an advance in phage display technology by permitting the uncoupling of the propagation of phages containing inserted sequences encoding heterologous polypeptides from the expression of said polypeptides. The invention provides phage constructs and methods for their use to permit phage coat protein expression, and thus phage propagation, in the absence of display of heterologous polypeptides, which may be expressed as a fusion with said coat protein in a regulated manner.

Abstract: The present invention provides an advance in phage display technology by permitting the uncoupling of the propagation of phages containing inserted sequences encoding heterologous polypeptides from the expression of said polypeptides. The invention provides phage constructs and methods for their use to permit phage coat protein expression, and thus phage propagation, in the absence of display of heterologous polypeptides, which may be expressed as a fusion with said coat protein in a regulated manner.

Abstract: The present invention provides an advance in phage display technology by permitting the uncoupling of the propagation of phages containing inserted sequences encoding heterologous polypeptides from the expression of said polypeptides. The invention provides phage constructs and methods for their use to permit phage coat protein expression, and thus phage propagation, in the absence of display of heterologous polypeptides, which may be expressed as a fusion with said coat protein in a regulated manner.

Abstract: The invention provides an affinity filter for the binding of phage-displayed proteins to dissolved target molecules. The phage-displayed proteins are contacted with immobilized target in the presence and absence of dissolved target; the behavior of the phage-displayed proteins as a function of concentration of dissolved target permits approximation of the affinity of the phage-displayed protein for target. The invention also provides a method to screen large numbers of compounds for their ability to compete with a compound known to bind a phage-displayed protein.

Abstract: The present invention provides an advance in phage display technology by permitting the uncoupling of the propagation of phages containing inserted sequences encoding heterologous polypeptides from the expression of said polypeptides. The invention provides phage constructs and methods for their use to permit phage coat protein expression, and thus phage propagation, in the absence of display of heterologous polypeptides, which may be expressed as a fusion with said coat protein in a regulated manner.

Abstract: The invention provides an affinity filter for the binding of phage-displayed proteins to dissolved target molecules. The phage-displayed proteins are contacted with immobilized target in the presence and absence of dissolved target; the behavior of the phage-displayed proteins as a function of concentration of dissolved target permits approximation of the affinity of the phage-displayed protein for target. The invention also provides a method to screen large numbers of compounds for their ability to compete with a compound known to bind a phage-displayed protein.