Ligand binding RNAs such as artificially created RNA-aptamers are structurally highly diverse. Therefore, they represent important model systems for investigating RNA-folding, RNA-dynamics and the molecular recognition of chemically very different ligands, ranging from small molecules to whole cells. High-resolution structures of RNA-aptamers in complex with their cognate ligands often reveal unexpected tertiary structure elements. Recent studies on different classes of aptamers binding the nucleotide triphosphate GTP as a ligand showed that these systems not only differ widely in binding affinity but also in their ligand binding modes and structural complexity. We initiated the NMR-based structure determination of the high-affinity binding GTP-aptamer 9-12 in order to gain further insights into the diversity of ligand binding modes and structural variability of those aptamers. Here, we report 1H, 13C and 15N resonance assignments for the GTP 9-12-aptamer bound to GTP as the prerequisite for the structure determination by solution NMR.
Keywords: Aptamer; GTP; NMR assignment; RNA; Site-specific isotope labeling; Triple resonance experiments.