Sequential resonance assignment of the 500-MHz nmr spectrum of d-(CG)₆ and its structure under low-salt conditions

Abstract

Two-dimensional (2D) nmr methods (correlated spectroscopy, nuclear Overhauser enhancement spectroscopy, and relayed correlated spectroscopy) have been used to obtain resonance assignment of the nonexchangeable base and sugar protons of a double-helical DNA segment, d-(CG)₆ in D₂O solutions under conditions of low ionic strength. Detailed information about the glycosidic torsion angle, sugar geometry, stacking patterns of the bases, and the overall solution structure of the dodecanucleotide has been obtained from the relative intensities of cross-peaks in the 2D spectra. The molecule shows general features of B-DNA under the experimental conditions employed. However, in spite of the repeating base sequence, there are subtle and detectable variations in the structure along the double helix. The terminal residues show considerable conformational flexibility.