Z Helix-coil Transition of d(C-Br8G-C-G-C-Br8G) Studied by CD,1H-NMR and IR Spectroscopies

Abstract

The conformation of díC-Bi⁸G-C-G-C-Br⁸G) in aqueous solution was studied by CD and ¹H-NMR spectroscopy and in condensed phase by IR spectroscopy. Whether in 0.1 M or 3 M NaCl solution or in film the only double helical structure adopted by brominated d(C-G)₃ oligomer is the Z form. The IR spectrum of the film presents all the characteristic absorptions of the Z conformation and in particular is indicative of a syn conformation for the central guanosine as well as for the brominated one. Imino proton resonances of diC-Bi⁸G-C- G-C-Br⁸G) demonstrating the duplex formation were observed up to 60°C. It is interesting to note that the significant highfield shifts of the dC H₅″ exocyclic sugar protons characteristic of the non exchangeable proton spectra of d(C-G)₃ containing 5-methyl dC residues in the Z form were also detected in the proton spectrum of brominated oligomer. Whereas formation of the Z helix of methylated d(C-G)₃ oligomers dependent on the salt concentration was found to occur via the preliminary formation of a B helix even in 4 M NaCl solution, the Z helix of d(C-Br⁸G-C-G-C-Br⁸G) is obtained directly from the coil form. However, IR data suggest that in the Z form of dlC-Bi⁸G-C-G-C-Bi⁸G), the overlapping of the base planes should be slightly different in comparison with the stacking observed in d(C-G)₃ crystals. The kinetic data (activation energy and lifetime) of the Z helix-coil transition of brominated d(C-G)₃ are compared to those of the B helix-coil transition observed for methylated d(C-G)₃ in 0.1 M NaCl solution while the thermodynamic data of these two reactions (enthalpy and midpoint temperature) are slightly different.