Design and Synthesis of a New Peptide Recognizing a Specific 16-Base-Pair Site of DNA

Abstract

We designed a peptide to recognize a new 16-base-pair site (about 1.5 turns) of DNA by stitching together three peptides of the v-Jun basic region in a specified order. The binding site consists of three five-base-pair half-sites each of which is recognized by a different segment of the peptide. DNase I footprinting shows that the new peptide specifically recognizes the proposed site, and gel retardation shows that the dissociation constant is about 5 nM at 4 °C. Gel retardation shows that the new peptide does recognize the proposed trimer binding site about 10 times stronger than the dimer binding sites [having two half-sites for two arms]. These results also provide information about the relationship between specific and nonspecific binding in the recognition between protein and DNA.

Group Members

William A. Goddard III

Charles and Mary Ferkel Professor