Effects of ssDNA sequences on non‐sequence‐specific protein binding

The circular dichroism (CD) spectra of single‐stranded DNAs (ssDNAs) are significantly perturbed by the binding of single‐stranded DNA binding proteins such as the Ff bacteriophage gene 5 protein (g5p) and the A domain of the 70 kDa subunit of human replication protein A (RPA70‐A). These two proteins have similar OB‐fold secondary structures, although their CD spectra at wavelengths below 250 nm differ greatly. The spectrum of g5p is dominated by a tyrosyl L a band at 229 nm, while that of RPA70‐A is dominated by its β secondary structure. Despite differences in their inherent spectral properties, these two proteins similarly perturb the spectra of bound nucleic acid oligomers. CD spectra of free, non‐protein‐bound ssDNAs are dependent on interactions of the nearest‐neighboring nucleotides in the sequence. The CD spectra (per mol of nucleotide) of simple repetitive sequences 48 nucleotides in length and containing simple combinations of A and C are related by nearest‐neighbor equations. For example, 3 × Δϵ[d(AAC) 16 ] = 3 × Δϵ[d(ACC) 16 ] + Δϵ[d(A) 48 ] − Δϵ[d(C) 48 ]. Moreover, nearest‐neighbor equations relate the spectra of ssDNAs when they are bound by g5p, indicating that each type of perturbed nearest neighbor has a similar average structure within the binding site of the protein. Chirality, 2006. © 2006 Wiley‐Liss, Inc.