Abstract
Dimerization of HIV-1 genomic RNA is an essential step of the viral cycle, initiated at a conserved stem-loop structure which forms a 'kissing complex' involving loop-loop interactions (dimerization initiation site, DIS). A 19mer RNA oligonucleotide (DIS-19) has been synthesized which forms a stable symmetrical dimer in solution at millimolar concentrations. Dimerization does not depend on addition of Mg2+. RNA ligation experiments unambiguously indicate that the formed dimer is a stable kissing complex under the NMR experimental conditions.1H NMR resonance assignments were obtained for DIS-19 at 290 K and pH 6.5. Analysis of the pattern of NOE connectivities reveals that the helix formed by loop-loop base pairing is stacked onto the two terminal stems. Non-canonical base pairs between two essential and conserved adenines are found at the junctions between the two intramolecular and the single intramolecular helices.
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