Determination of distances involving exchangeable protons from NOESY spectra of two DNA dodecamers.

Two-dimensional proton nuclear Overhauser effect (NOESY) spectra were obtained as a function of mixing time for two DNA dodecamers, 5'-CGCGAATTCGCG-3' and 5'-CGCAAATTTGCG-3', in aqueous solutions. The time evolution of cross-peak volumes was quantitatively analyzed based on the approximate solution of the relaxation/exchange equation over a range of mixing times from 30 to 150 ms. Inter-proton distances, involving exchangeable protons in key locations of the structures, were calculated and compared to the distances predicted by the crystal structures. These NMR-derived distances enhance the number of constraints, and their accuracy, for determination of solution structures of the two DNA dodecamers.