A synthetic combinatorial library of 10,000 components mostly containing aromatic amino acids was screened for inhibition of DNase I cleavage at two ARE sequences. Ten amino acid building blocks were used to generate the library in which the N and C terminal residues were fixed and the four central positions of the peptide ligands were varied. The DNase I footprinting assay led, after deconvolution through sublibrary synthesis, to the identification of CGL-6382 as an ARE-selective minor groove binder containing a N-terminal nicotinic acid motif adjacent to a N-methylimidazole unit and three N-methylpyrrole units coupled to a C-terminal argininamide residue. The optimized ligand CGL-6382 was found to recognize a 5'-G;C(APT)(AIT) motif within the two cloned androgen receptors responsive elements. The discovery of CGL-6382 as an ARE-selective ligand augurs well for the use of the DNase I footprinting methodology to identify sequence-specific DNA recognition ligands from large mixtures of small molecules.