ABSTRACT
To develop reproducible results, it is critical that all reagents used in an experiment be validated in an alternative or independent method. We present two such independent methods for determining the specificity of antibodies: (1) "MILKSHAKE," which can be used to validate the liability and specificity of antibodies directed against post-translationally-modified epitopes, and (2) "Sundae," which is a more complete alanine-like scanning method that can be used to better understand the binding and bioactivity of specific residues of a protein. We apply both of these methods to the interaction between an antibody and its antigen.
Subject(s)
Alanine , Antibodies , EpitopesABSTRACT
Researchers can often successfully generate antibodies to predicted epitopes. Especially when the epitopes are on the surface of a protein or in a hydrophilic loop. But it is difficult to direct recombinant antibodies to bind either to- or near a specific amino acid on a protein or peptide. We have developed a unique immune-targeting strategy, that we call "Epivolve," that enables us to make site-specific antibodies (Abs). Epivolve technology leverages a highly immunogenic modified amino acid that acts as a "pseudo-hapten" immuno-target and takes advantage of Ab affinity maturation technologies to make high-affinity site-specific antibodies. Epivolve functions by the evolution of an Ab paratope to either synonymous or especially non-synonymous amino acid (aa) binding. Here we describe the use of Epivolve technology in phage display and the protocols for developing site-specific antibodies.