Conformational analysis of the B and Z forms of the d(m5C‐G)3 and d(br5C‐G)3 hexamers in solution: A 300‐MHz and 500‐MHz NMR study

Abstract

The B and the Z forms of the DNA hexamers d(m5C‐G)3 and d(br5C‐G)3 were investigated by means of NMR spectroscopy. It is demonstrated that the low‐salt form of d(m5C‐G)3 is a B DNA structure. The form, which becomes increasingly predominant when increasing amounts of MgCl2 and/or methanol are added to the solution, has Z DNA characteristics. It is shown that the major geometrical features of the Z form of d(m5C‐G)3 in the crystal structure are maintained in solution, with the dC residues S sugar conformation, γ+ and the base in the anti orientation and the dG residues N (except the 3′‐terminal residue), γt and syn. Neither the Z form of the methylated nor that of the brominated compound resembles the Z′ form, in which the deoxy guanosine sugar rings adopt a C1′‐exo conformation. Substitution of m5C by br5C causes no perceptible conformational changes in either the B or in the Z forms. Copyright © 1986, Wiley Blackwell. All rights reserved