Sequence inversion in G-rich DNA from 5'→3' to 3'→5' exerts a substantial effect on the number of structures formed, while the type of G-quadruplex fold is in fact determined by the presence of K(+) or Na(+) ions. The melting temperatures of G-quadruplexes adopted by oligonucleotides with sequences in the 5'→3' direction are higher than those of their 3'→5' counterparts with both KCl and NaCl. CD, UV, and NMR spectroscopy demonstrates the importance of primary sequence for the structural diversity of G-quadruplexes. The changes introduced by mere sequence reversal of the G-rich DNA segment have a substantial impact on the polymorphic nature of the resulting G-quadruplexes and their potential physiological roles. The insights resulting from this study should enable extension of the empirical rules for the prediction of G-quadruplex topology.
Keywords: DNA structures; G-quadruplexes; NMR spectroscopy; circular dichroism; folding.
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