Sequence-Defined Scaffolding of Peptides on Nucleic Acid Polymers.

We have developed a method for the T4 DNA ligase-catalyzed DNA-templated polymerization of 5'-phosphorylated pentanucleotides containing peptide fragments. The polymerization proceeds sequence-specifically to generate DNA-scaffolded peptides in excellent yields. The method has been shown to tolerate peptides ranging from two to eight amino acids in length with a wide variety of functionality. We validated the capabilities of this system in a mock selection for the enrichment of a His-tagged DNA-scaffolded peptide phenotype from a library, which exhibited a 190-fold enrichment after one round of selection. This strategy demonstrates a promising new approach to allowing the generation and in vitro selection of high-affinity reagents based upon single-stranded DNA scaffolding of peptide fragments.