In this study, we report the first atomic resolution structure of a stable G-hairpin formed by a natively occurring DNA sequence. An 11-nt long G-rich DNA oligonucleotide, 5'-d(GTGTGGGTGTG)-3', corresponding to the most abundant sequence motif in irregular telomeric DNA from Saccharomyces cerevisiae (yeast), is demonstrated to adopt a novel type of mixed parallel/antiparallel fold-back DNA structure, which is stabilized by dynamic G:G base pairs that transit between N1-carbonyl symmetric and N1-carbonyl, N7-amino base-pairing arrangements. Although the studied sequence first appears to possess a low capacity for base pairing, it forms a thermodynamically stable structure with a rather complex topology that includes a chain reversal arrangement of the backbone in the center of the continuous G-tract and 3'-to-5' stacking of the terminal residues. The structure reveals previously unknown principles of the folding of G-rich oligonucleotides that could be applied to the prediction of natural and/or the design of artificial recognition DNA elements. The structure also demonstrates that the folding landscapes of short DNA single strands is much more complex than previously assumed.

Central European Institute of Technology Masaryk University Kamenice 753 5 62500 Brno Czech Republic

Department of Genetics Faculty of Natural Sciences Comenius University Mlynska dolina B 1 Ilkovicova 6 84215 Bratislava Slovakia

Department of Pharmacy University of Naples Federico 2 Via D Montesano 49 1 80131 Naples Italy

EN FIST Centre of Excellence Trg Osvobodilne fronte 13 SI 1001 Ljubljana Slovenia

Faculty of Chemistry and Chemical Technology University of Ljubljana Večna pot 113 SI 1000 Ljubljana Slovenia

Institute of Biophysics v v i Academy of Sciences of the Czech Republic Kralovopolska 135 61265 Brno Czech Republic

Slovenian NMR Centre National Institute of Chemistry Hajdrihova 19 SI 1000 Ljubljana Slovenia

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