Spectroscopic investigation of metal-RNA interactions
| Title: | Spectroscopic investigation of metal-RNA interactions |
| Author: | Vogt, Matthew John |
| Abstract: | Metal-RNA interactions are important to neutralize the negative charge and aid in correctly folding the RNA. Spectroscopically active metal ions, especially Mn2+, have been used to probe the type of interaction the metal has with RNA. In previous studies, the hammerhead ribozyme, an RNA motif that catalyzes a site-specific phosphodiester bond cleavage reaction, was determined by room temperature EPR (electron paramagnetic resonance) studies to have a set of tightly and weakly bound metal ions. Under high salt concentrations, the hammerhead was found to bind a single Mn2+ ion with high affinity and with a characteristic low temperature EPR signal. Using site specific 15N labeling of a guanine residue in conjunction with ESEEM (electron spin echo envelope modulation) spectroscopy, the high affinity Mn2+ ion was conclusively determined coordinated to G10.1 of the proposed A9/G10.1 site with four water molecules coordinated to the Mn2+ ion. EPR power saturation studies determined that under low salt conditions the hammerhead coordinates up to four Mn2+ ions in relatively close proximity compared to an RNA duplex. EXAFS (extended X-ray absorption fine structure) spectroscopy was used to determine that a Cd2+ ion coordinates to both the Rp and Sp sulfur atoms of a phosphorothioate modification at the A9 phosphate of the hammerhead. Previous EXAFS results for the Mn2+ substituted A9 phosphorothioate suggested that the Mn2+ ion coordinates to the oxygen atom for both isomers. Molecular modeling suggested that the A9/G10.1 metal site will twist the phosphate group in order to accommodate this coordination. A Mn-GMP and Mn-phosphate model complexes were prepared and characterized by EXAFS to assign the origin of the features observed for the hammerhead sample. A series of RNA sequences with internal loops containing the sheared G-A metal ion binding motif showed greater thermal stabilization of the RNA structure in the presence of Mn2+ ions compared to sequences without the motif. The EPR binding isotherms also showed a set of moderately tight metal ion interaction while circular dichroism spectroscopy was used to investigate structural differences between the sequences. These results suggest a mostly electrostatic, not structural role, for the Mn2+ ion interactions with these sequences. |
| Publisher: | Texas A&M University |
| Subject: |
RNA
Mn ribozyme EPR ESEEM |
| URI: | http://hdl.handle.net/1969.1/1344 |
| Date: | 2004-12 |
Citation
(2004).
Spectroscopic investigation of metal-RNA interactions.
Doctoral dissertation,
Texas A&M University.
Texas A&M University. Available electronically from
http : / /hdl .handle .net /1969 .1 /1344.
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