Structure of the U6 RNA intramolecular stem-loop harboring an S(P)-phosphorothioate modification.

  • Reiter NJ, Nikstad LJ, Allmann AM, Johnson RJ, Butcher SE. Structure of the U6 RNA intramolecular stem-loop harboring an S(P)-phosphorothioate modification. RNA (New York, N.Y.). 2003 May;9(5). 533-42. U6RNA_RNA_2003 PMID: 12702812 [PubMed]. PMCID: PMC1370419.

Abstract 

Phosphorothioate-substitution experiments are often used to elucidate functionally important metal ion-binding sites on RNA. All previous experiments with S(P)-phosphorothioate-substituted RNAs have been done in the absence of structural information for this particular diastereomer. Yeast U6 RNA contains a metal ion-binding site that is essential for spliceosome function and includes the pro-S(P) oxygen 5' of U(80). S(P)-phosphorothioate substitution at this location creates spliceosomes dependent on thiophilic ions for the first step of splicing. We have determined the solution structure of the U(80) S(P)-phosphorothioate-substituted U6 intramolecular stem-loop (ISL), and also report the refined NMR structure of the unmodified U6 ISL. Both structures were determined with inclusion of (1)H-(13)C residual dipolar couplings. The precision of the structures with and without phosphorothioate (RMSD = 1.05 and 0.79 A, respectively) allows comparison of the local and long-range structural effect of the modification. We find that the U6-ISL structure is unperturbed by the phosphorothioate. Additionally, the thermodynamic stability of the U6 ISL is dependent on the protonation state of the A(79)-C(67) wobble pair and is not affected by the adjacent phosphorothioate. These results indicate that a single S(P)-phosphorothioate substitution can be structurally benign, and further validate the metal ion rescue experiments used to identify the essential metal-binding site(s) in the spliceosome.