The use of site-directed mutagenesis, transient transfection, and radioligand bindingA method for the characterization of receptor-ligand interactions

Receptor-ligand interactions have traditionally been evaluated using a number of biochemical techniques including radioligand binding, photoaffinity labeling, crosslinking, and chemical modification. In modern biochemistry, these approaches have largely been superseded by site-directed mutagenesis in the study of protein function, owing in part to a better understanding of the chemical properties of oligonucleotides and to the ease with which mutant clones can now be generated. The Altered Sites II® in vitro Mutagenesis System from the Promega Corporation employs oligonucleotides containing two mismatches to introduce specific nucleotide substitutions in the nucleic acid sequence of a target DNA. One of these mismatches will alter the primary sequence of a given protein, whereas the second will give rise to a silent restriction site that is used to screen for mutants. Transient transfection of tsA201 cells with mutant cDNA constructs using calcium phosphate as a carrier for plasmid DNA permits expression of recombinant receptors that can be characterized using radioligand binding assays. In this article, we focus on site-directed mutagenesis, heterologous expression in eukaryotic cells, and radioligand binding as a methodology to enable the characterization of receptor-ligand interactions.