The occurrence of the syn-C3′ endo conformation and the distorted backbone conformations for C4′-C5′ and P-O5′ in oligo and polynucleotides

Abstract

The nucleoside constituents of nucleic acids prefer the anti conformation (1). When the sugar pucker is taken into account the nucleosides prefer the C2′endo-anti conformation. Of the nearly 300 nucleosides known, about 250 are in the anti conformation and 50 are in the syn-conformation, i.e., anti to syn conformation is 5:1. The nucleotide building blocks of nucleic acids show the same trend as nucleosides. Both the deoxy-guanosine and ribo- guanosine residues in nucleosides and nucleotides prefer the syn-C2′endo conformation with an intra-molecular hydrogen bond (for nucleosides) between the O5′- H and the N3 of the base and, a few syn-C3′endo conformations are also observed. Evidence is presented for the occurrence of the C3′endo-syn conformation for guanines in mis-paired double helical right-handed structures with the distorted sugar phosphate C4′-C5′ and P-O5′ bonds respectively, from g+ (gg) and g- to trans. Evidence is also provided for guanosine nucleotides in left-handed double-helical (Z-DNA) oligo and polynucleotides which has the same syn-C3′endo conformation and the distorted backbone sugar-phosphate bonds (C4′-C5′ and P- O5′) as in the earlier right-handed case.