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  • Ultrafast dynamics show that the theophylline and 3-methylxanthine aptamers employ a conformational capture mechanism for binding their ligands.

Ultrafast dynamics show that the theophylline and 3-methylxanthine aptamers employ a conformational capture mechanism for binding their ligands.

Biochemistry (2010-03-11)
Sang Won Lee, Liang Zhao, Arthur Pardi, Tianbing Xia
ABSTRAKT

RNAs often exhibit a high degree of conformational dynamics and heterogeneity, leading to a rugged energy landscape. However, the roles of conformational heterogeneity and rapid dynamics in molecular recognition or RNA function have not been extensively elucidated. Ultrafast time-resolved fluorescence spectroscopic experiments were used here to probe picosecond dynamics of the theophylline-binding RNA aptamer. These studies showed that multiple conformations are populated in the free RNA, indicating that this aptamer employs a conformational capture mechanism for ligand binding. The base on residue 27 in an internal loop exists in at least three conformational states in the free RNA, including binding competent and incompetent states that have distinct fluorescence decay signatures indicating different base stacking interactions. Picosecond dynamics were also detected by anisotropy experiments, where these motions indicate additional dynamics for base 27. The picosecond data show that theophylline binding shifts the equilibrium for conformations of base 27 from primarily stacked in the free RNA to mostly unstacked in the RNA-theophylline complex, as observed in the previous NMR structure. In contrast, base 10 in a second internal loop is mostly preorganized in the free RNA, consistent with it being stacked between G11 and G25, as is observed in the bound state. Picosecond dynamics were also measured on a modified aptamer that binds with higher affinity to 3-methylxanthine than theophylline. The modified aptamer shows less heterogeneity in the aptamer-3-methylxanthine complex than what is observed in the theophylline aptamer-theophylline complex.

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Sigma-Aldrich
3-Methylxanthine, 98%