Novel 13C-detected NMR Experiments for the Precise Detection of RNA Structure

Abstract

Up to now, NMR spectroscopic investigations of RNA have utilized imino proton resonances as reporters for base pairing and RNA structure. The nucleobase amino groups are often neglected, since most of their resonances are broadened beyond detection due to rotational motion around the C–NH2 bond. Here, we present 13C-detected NMR experiments for the characterization of all RNA amino groups irrespective of their motional behavior. We have developed a C(N)H-HDQC experiment that enables the observation of a complete set of sharp amino resonances through the detection of proton-NH2 double quantum coherences. Further, we present an “amino”-NOESY experiment to detect NOEs to amino protons, which are undetectable by any other conventional NOESY experiment. Together, these experiments allow the exploration of additional chemical shift information and inter-residual proton distances important for high-resolution RNA secondary and tertiary structure determination.