Base-catalysis of imino proton exchange in DNA: effects of catalyst upon DNA structure and dynamics.
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Characterization of the kinetics and energetics of base-pair opening in nucleic acids relies upon measurements of the rates of exchange of imino protons with water protons at high concentrations of the exchange catalyst. Under these conditions, the exchange catalyst may affect structural or dynamic properties of the nucleic acid molecule and thus, limit the significance of the exchange data. To address this problem, we have used NMR spectroscopy to characterize the effects of a catalyst of imino proton exchange, namely, ammonia upon the structure and dynamics of the self-complementary DNA dodecamer [d(CGCAGATCTGCG)]2. The changes in structure were monitored in proton NOESY and DQF-COSY experiments and in phosphorus spectra at 15 degrees C and at ammonia concentrations ranging from 0.002 to 0.5 M. The results indicate that ammonia induces subtle changes in the solution conformation of the dodecamer, but the overall structure is maintained close to the B-type DNA structure. However, the relaxation rates (i.e., transverse, longitudinal, and cross-relaxation rates) of several non-exchangeable protons were found to increase by approximately 50% upon changing ammonia concentration from 0.002 to 0.5 M. The increases were comparable for all protons investigated suggesting that they originate from an ammonia-induced increase in the overall correlation time of the DNA dodecamer. Numerical analysis revealed that the catalyst-induced enhancements in proton relaxation can alter significantly the calculated values of the exchange rates of imino protons, especially those obtained from measurements of the line widths of these proton resonances.