Martina Lindqvist scite author profile

The 2'-OH group in the ribose sugars of an RNA molecule plays an important role in guiding tertiary interactions that stabilize different RNA structural motifs. Deoxyribose, or 2'-OH by 2'-H, substitution in both the single-stranded and the duplex part of an RNA backbone has been routinely used to evaluate what role the 2'-OH plays in different tertiary interactions that guide an RNA-RNA contact. A deoxyribose substitution not only has the effect of removing a hydrogen bond donating group, but also introduces a sugar moiety with a preference for C2'-endo pucker in a backbone of predominantly C3'-endo sugars. This study evaluates the effects of a single deoxyribose substitution in both single-stranded and double-helical forms of RNA oligomers. A single-stranded, nonrepetitive 7-mer oligoribonucleotide (7-mer RNA) and four different variants having the same base sequence but with a single deoxyribose sugar at different positions in the strands have been studied by ultraviolet (UV) absorption, circular dichroism (CD), and Fourier transform infrared (FTIR) spectroscopy. Duplexes were formed by association with the complementary strand of the 7-mer RNA. The results show that both RNA and DNA single strands have preorganized conformations with spectral properties resembling those of A- and B-form helices, respectively, with RNA being more heterogeneous than its DNA counterpart. A single deoxyribose substitution perturbs the structure of the RNA backbone, with the effect being more pronounced in the single-stranded than in the duplex structure. The perturbation depends on the position of the 2'-H substitution in the strand.

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Specific metal-ion binding sites in a model of the P4-P6 triple-helical domain of a group I intron

Lindqvist

Sandström

Liepins

et al. 2001

RNA

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Divalent metal ions play a crucial role in RNA structure and catalysis. Phosphorothioate substitution and manganese rescue experiments can reveal phosphate oxygens interacting specifically with magnesium ions essential for structure and/or activity. In this study, phosphorothioate interference experiments in combination with structural sensitive circular dichroism spectroscopy have been used to probe molecular interactions underlying an important RNA structural motif. We have studied a synthetic model of the P4-P6 triple-helical domain in the bacteriophage T4 nrdB group I intron, which has a core sequence analogous to the Tetrahymena ribozyme. Rp and Sp sulfur substitutions were introduced into two adjacent nucleotides positioned at the 39 end of helix P6 (U452) and in the joining region J6/7 (U453). The effects of sulfur substitution on triple helix formation in the presence of different ratios of magnesium and manganese were studied by the use of difference circular dichroism spectroscopy. The results show that the pro-Sp oxygen of U452 acts as a ligand for a structurally important magnesium ion, whereas no such effect is seen for the pro-Rp oxygen of U452. The importance of the pro-Rp and pro-Sp oxygens of U453 is less clear, because addition of manganese could not significantly restore the triple-helical interactions within the isolated substituted model systems. The interpretation is that U453 is so sensitive to structural disturbance that any change at this position hinders the proper formation of the triple helix.

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Martina Lindqvist

An FTIR and CD study of the structural effects of G-tract length and sequence context on DNA conformation in solution 1 1Edited by I. Tinoco

Optical Spectroscopic Study of the Effects of a Single Deoxyribose Substitution in a Ribose Backbone: Implications in RNA−RNA Interaction

Specific metal-ion binding sites in a model of the P4-P6 triple-helical domain of a group I intron

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