Detection of N-Hmiddle dotmiddle dotmiddle dotN hydrogen bonding in RNA via scalar couplings in the absence of observable imino proton resonances

Abstract

Hydrogen bond networks stabilize RNA secondary and tertiary structure and are thus essentially important for protein recognition. During structure refinements using either NMR or X-ray techniques, hydrogen bonds were usually inferred indirectly from the proximity of donor and acceptor functional groups. Recently, quantitative heteronuclear J(N,N)-HNN COSY NMR experiments were introduced that allowed the direct identification of donor and acceptor nitrogen atoms involved in hydrogen bonds. However, protons involved in base pairing interactions in nucleic acids are often not observable due to exchange processes. The application of a modified quantitative J(N,N)-HNN COSY pulse scheme permits observation of(2h)J(N,N) couplings via non-exchangeable protons. This approach allowed the unambiguous identification of the A27.U23 reverse Hoogsteen base pair involved in a U-A.U base triple in the HIV-2 transactivation response element-argininamide complex. Despite a wealth of NOE information, direct evidence for this interaction was lacking due to the rapid exchange of the U23 imino proton. The ability to directly observe hydrogen bonds, even in D(2)O and in the presence of rapid exchange, should facilitate structural studies of RNA.