Directed Evolution Methods for Enzyme Engineering.

Enzymes underpin the processes required for most biotransformations. However, natural enzymes are often not optimal for biotechnological uses and must be engineered for improved activity, specificity and stability. A rich and growing variety of wet-lab methods have been developed by researchers over decades to accomplish this goal.

Rapid screening of protein-protein interaction inhibitors using the protease exclusion assay.

We have previously developed a sensitive and modular homogenous biosensor system using peptides to detect target ligands. By transposing the basic mechanistic principle of the nuclease protection assay into this biosensor framework, we have developed the protease exclusion (PE) assay which can discern antagonists of protein-protein interactions in a rapid, single-step format. We demonstrate the concept with multiple protein-peptide pairs and validate the method by successfully screening a small molecule library for compounds capable of inhibiting the therapeutically relevant p53-Mdm2 interaction.

A generic scaffold for conversion of peptide ligands into homogenous biosensors.

Numerous peptide ligands including protease recognition sequences, peptides mediating protein-protein interactions, peptide epitopes of antibodies and mimotopes are available which bind molecules of interest. However, there is currently no facile method for the incorporation of these peptides into homogenous detection systems. We present a generalizable method for the incorporation of such peptides into a novel fusion protein framework comprising an enzyme and its inhibitor.

Compartmentalized linkage of genes encoding interacting protein pairs.

Emulsion technology has been successfully applied to the fields of next-generation high-throughput sequencing, protein engineering and clinical diagnostics. Here, we extend its scope to proteomics research by developing and characterizing a method, termed iCLIP (in vitro compartmentalized linkage of interacting partners), which enables genes encoding interacting protein pairs to be linked in a single segment of DNA. This will facilitate archiving of the interactomes from library versus library two-hybrid screens as libraries of linked DNAs.