Modulation of Infectivity in Phage Display as a Tool to Determine the Substrate Specificity of Proteases

The use of phage display in neurobiology

Phage display has been extensively used to study protein-protein interactions, receptor- and antibody-binding sites, and immune responses, to modify protein properties, and to select antibodies against a wide range of different antigens. In the format most often used, a polypeptide is displayed on the surface of a filamentous phage by genetic fusion to one of the coat proteins, creating a chimeric coat protein, and coupling phenotype (the protein) to genotype (the gene within). As the gene encoding the chimeric coat protein is packaged within the phage, selection of the phage on the basis of the binding properties of the polypeptide displayed on the surface simultaneously results in the isolation of the gene encoding the polypeptide. This unit describes the background to the technique, and illustrates how it has been applied to a number of different problems, each of which has its neurobiological counterparts. Although this overview concentrates on the use of filamentous phage, which is the most popular platform, other systems are also described.

Identification of protease substrates by combinatorial profiling on TentaGel beads

Reacting a 65,536 member combinatorial library of octapeptides on TentaGel beads with various proteases followed by selective staining of the free amino termini at the reacted bead surface and sequence determination by amino acid analysis allowed the rapid identification of protease substrates.