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G-quadruplexes (G4s) have been in the focus of research in the last decades for their regulatory roles in vivo and for their use in nano- and biotechnology. However, an understanding of the various factors that drive a particular quadruplex fold remains limited, challenging rational therapeutic targeting and design of these tetrahelical structures. In this regard, insights from modified G-quadruplexes may help to deepen our knowledge of G-quadruplex structure. In this dissertation, sugar-modified guanosine analogs are exploited for their altered conformational preferences regarding both glycosidic bond angle and sugar pucker by their incorporation into different syn positions of the G-core of a model G-quadruplex. Induced structural perturbations as characterized by NMR spectroscopy range from a local change in tetrad polarity to a complete refolding into an unusual structure with a V-shaped loop, a unique G4 structural element in the focus of this work. Detailed conformational analysis of the introduced G analogs and high-resolution structures of the modified quadruplexes reveal a complex interplay of glycosidic torsion angle, sugar pucker preferences and local interactions, which may all play a leading role in driving G4 folding.
Abstract
A DNA G‐quadruplex adopting a (3+1) hybrid structure was modified in two adjacent syn positions of the antiparallel strand with anti‐favoring 2′‐deoxy‐2′‐fluoro‐riboguanosine (FrG) analogues. The two substitutions promoted a structural rearrangement to a topology with the 5′‐terminal G residue located in the central tetrad and the two modified residues linked by a V‐shaped zero‐nucleotide loop. Strikingly, whereas a sugar pucker in the preferred north domain is found for both modified nucleotides, the FrG analogue preceding the V‐loop is forced to adopt the unfavored syn conformation in the new quadruplex fold. Apparently, a preferred C3′‐endo sugar pucker within the V‐loop architecture outweighs the propensity of the FrG analogue to adopt an anti glycosidic conformation. Refolding into a V‐loop topology is likewise observed for a sequence modified at corresponding positions with two riboguanosine substitutions. In contrast, 2′‐F‐arabinoguanosine analogues with their favored south‐east sugar conformation do not support formation of the V‐loop topology. Examination of known G‐quadruplexes with a V‐shaped loop highlights the critical role of the sugar conformation for this distinct structural motif.