Abstract
The fluorescent base analogue 2‐aminopurine (2‐AP) is commonly used to study specific conformational and protein binding events involving nucleic acids. Here, combinations of steady‐state and time‐resolved fluorescence spectroscopy of 2‐AP were employed to monitor conformational transitions within a model hairpin RNA from diverse structural perspectives. RNA substrates adopting stable, unambiguous secondary structures were labeled with 2‐AP at an unpaired base, within the loop, or inside the base‐paired stem. Steady‐state fluorescence was monitored as the RNA hairpins made the transitions between folded and unfolded conformations using thermal denaturation, urea titration, and cation‐mediated folding. Unstructured control RNA substrates permitted the effects of higher‐order RNA structures on 2‐AP fluorescence to be distinguished from stimulus‐dependent changes in intrinsic 2‐AP photophysics and/or interactions with adjacent residues. Thermodynamic parameters describing local conformational changes were thus resolved from multiple perspectives within the model RNA hairpin. These data provided energetic bases for construction of folding mechanisms, which varied among different folding‐unfolding stimuli. Time‐resolved fluorescence studies further revealed that 2‐AP exhibits characteristic signatures of component fluorescence lifetimes and respective fractional contributions in different RNA structural contexts. Together, these studies demonstrate localized conformational events contributing to RNA folding and unfolding that could not be observed by approaches monitoring only global structural transitions.
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