Purification of DNA‐Binding Proteins Using Biotin/Streptavidin Affinity Systems

Abstract

This unit presents purification protocols that exploit the tight and essentially irreversible complex that biotin forms with streptavidin. A DNA fragment containing a high-affinity binding site for the protein of interest is prepared and a molecule of biotinylated nucleotide is incorporated into one of the ends of the DNA fragment. The protein of interest is allowed to bind to the high-affinity recognition site present in the biotinylated fragment. The tetrameric protein streptavidin is then bound to the biotinylated end of the DNA fragment. Next, the protein/biotinylated fragment/streptavidin ternary complex is efficiently removed by adsorption onto a biotin-containing resin. Since streptavidin is multivalent, it is able to serve as a bridge between the biotinylated DNA fragment and the biotin-containing resin. Proteins remaining in the supernatant are washed away under conditions that maximize the stability of the DNA-protein complex. Finally, the protein of interest is eluted from the resin with a high-salt buffer. Both batch and column formats are presented, as is a protocol for the use of streptavidin-agarose. A support protocol describes a mobility shift assay for detecting sequence-specific DNA-binding proteins.