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NMR determination of the conformational and drug binding properties of the DNA heptamer d(GpCpGpApApGpC) in aqueous solution.
Authors:D B Davies   V I Pahomov     A N Veselkov
Abstract:1D and 2D NMR spectroscopy (500/600 MHz) has been used to investigate the equilibrium conformational states of the deoxyheptanucleotide 5'-d(GpCpGpApApGpC), as well as its complexation with the phenanthridinium drug ethidium bromide (EB). Quantitative determination (reaction constants and thermodynamic parameters) of the conformational equilibrium of the heptamer in solution and its complexation with EB was based on analysis of the dependence of proton chemical shifts on concentration (at two temperatures, 298 and 308 K) and on temperature (in the range 278-353 K). The experimental results were analysed in terms of a model of the dynamic equilibrium between single-stranded, hairpin and bulged dimer forms of the deoxyheptanucleotide and its complexes with EB. Calculation of the relative amounts of the different complexes reveals important features of the dynamic equilibrium as a function of both temperature and the ratio of the drug and heptamer concentrations. The quantitative analysis also provides the limiting proton chemical shifts of EB in each complex which have been used to determine the most favourable structures of the intercalated complexes of EB with the (GC) sites of both the hairpin and dimer forms of the heptanucleotide.
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