Abstract: The present application provides a method of synthesizing a genetically-encoded chemical modification of a peptide library. A vector in a substrate, such as a phage, is modified to include a peptide linker and a modification to form a genetic “barcode”. The barcode is screened against potential targets which may be used in drug discovery.

Abstract: The present application provides a method of synthesizing a genetically-encoded chemical modification of a peptide library. A vector in a substrate, such as a phage, is modified to include a peptide linker and a modification to form a genetic “barcode”. The barcode is screened against potential targets which may be used in drug discovery.

Abstract: Designed herein are multivalent heterobifunctional polymers for binding to a biological target exhibiting biological activity and to an effector template which can affect the biological activity of the biological target or detect the presence of the biological target. The polymers comprise a plurality of pre-arranged heterobifunctional ligands connected thereto, and each heterobifunctional ligand comprises a first functionality capable of binding to the biological target, and a second functionality capable of binding to the effector template. The heterobifunctional ligands are pre-arranged on the polymer so as to form a ternary complex between the polymer, the biological target and the effector template. The polymers, methods and compositions described herein provide an approach for the design and production of new therapeutic agents as well as agents useful in a variety of non-therapeutic applications.

Abstract: Novel glycerol cyclic pyruvate derivates were prepared and demonstrated to inhibit the binding of an immobilized D-proline derivative to serum amyloid P component (SAP) have been prepared. As such, the compounds of the invention are useful for treating amyloidosis and diseases associated with amyloidosis, for example Alzheimer&supl;s disease and maturity onset diabetes mellitus.

Abstract: The present invention relates generally to methods and compositions for targeted immunotherapy. More specifically, the present invention relates to immuno-targeted therapies, using heteromultivalent compounds to mediate the binding of an endogenous effector molecule such as an antibody to target molecules including malignant cells and tissues, bacteria and viruses as well as their toxic agents.

Abstract: Novel glycerol cyclic pyruvate derivates were prepared and demonstrated to inhibit the binding of an immobilized D-proline derivative to serum amyloid P component (SAP) have been prepared. As such, the compounds of the invention are useful for treating amyloidosis and diseases associated with amyloidosis, for example Alzheimer&supl;s disease and maturity onset diabetes mellitus.

Abstract: Compounds which bind to toxins associated with enteric bacterial infection, compositions including the compounds, methods for the neutralization of toxins in a patient, and methods for the diagnosis of bacterial and viral infections are disclosed. Toxins which can be bound by the compounds include pentameric toxins, for example SLTs, such as those from salmonella, camylobacter and other bacteria, verotoxins from E. coli, cholera toxin, clostridium difficile toxins A and B, bacterial pili from enteropathogenic E. coli (EPEC) and enterotoxigenic E. coli (ETEC) and viral lectins such as viral hemagglutinins. The compounds include a core molecule bound to a plurality of linker arms, which in turn are bound to a plurality of bridging moieties, which in turn are bound to at least one, and preferably, two or more ligands which bind to the toxin. The presence of a plurality of bridged dimers of the ligands is responsible for the increased binding affinity of the compounds relative to the ligands themselves.

Abstract: Compounds which bind to shiga-like toxins (SLT) associated with enteric E. coli infection, compositions including the compounds, methods for the neutralization of (SLT) in a patient, and methods for the diagnosis of enteric E. coli infection are disclosed. The compounds include a core molecule bound to a plurality of linker arms, which in turn are bound to a plurality of bridging moieties, which in turn are bound to two or three di- or tri-saccharide moieties. The di- or tri-saccharide moieties themselves are active in binding to the SLTs. The presence of a plurality of bridged dimers of the di- and tri-saccharides is responsible for the increased binding affinity of the compounds relative to the di- and tri-saccharides themselves. The compounds, when administered in a timely fashion to a patient suffering from enteric E. coli infection, inhibit progression of this infection into hemolytic uremic syndrome (HUS).

Abstract: A biosensor apparatus for detecting a binding event between a ligand and receptor. The apparatus includes an electrode substrate coated with a high-dielectric hydrocarbon-chain monolayer, and having ligands attached to the exposed monolayer surface. Binding of a receptor to the monolayer-bound ligand, and the resultant perturbation of the monolayer structure, causes ion-mediated electron flow across the monolayer. In one embodiment, the monolayers have a coil--coil heterodimer embedded therein, one subunit of which is attached to the substrate, and the second of which carries the ligand at the monolayer surface.