Triple resonance HNCCCH experiments for correlating exchangeable and nonexchangeable cytidine and uridine base protons in RNA.

A set of triple resonance experiments is presented, providing through-bond H2N/HN to H6 connectivities in uridines and cytidines in 13C-/15N-labeled RNAs. These connectivities provide an important link between the sequential assignment pathways for the exchangeable and nonexchangeable proton resonances in nucleic acids. Both 2D and pseudo-3D HNCCCH experiments were applied to a 30-nucleotide lead-dependent ribozyme, known as the leadzyme. The HN to H6 connectivities for three uridines in the leadzyme were identified from one 2D H(NCCC)H experiment, and the H2N to H6 connectivities were identified for seven of the eight cytidines from the combination of a 2D H(NCCC)H and a pseudo-3D H(NCC)CH experiment.