Effects of magnesium ions on the stabilization of RNA oligomers of defined structures

MARTIN J. SERRA; JOHN D. BAIRD; TARAKA DALE; BRIDGET L. FEY; KIMBERLY RETATAGOS; ERIC WESTHOF

doi:10.1017/S1355838202024226

Abstract

Optical melting was used to determine the stabilities of 11 small RNA oligomers of defined secondary structure as a function of magnesium ion concentration. The oligomers included helices composed of Watson–Crick base pairs, GA tandem base pairs, GU tandem base pairs, and loop E motifs (both eubacterial and eukaryotic). The effect of magnesium ion concentration on stability was interpreted in terms of two simple models. The first assumes an uptake of metal ion upon duplex formation. The second assumes nonspecific electrostatic attraction of metal ions to the RNA oligomer. For all oligomers, except the eubacterial loop E, the data could best be interpreted as nonspecific binding of metal ions to the RNAs. The effect of magnesium ions on the stability of the eubacterial loop E was distinct from that seen with the other oligomers in two ways. First, the extent of stabilization by magnesium ions (as measured by either change in melting temperature or free energy) was three times greater than that observed for the other helical oligomers. Second, the presence of magnesium ions produces a doubling of the enthalpy for the melting transition. These results indicate that magnesium ion stabilizes the eubacterial loop E sequence by chelating the RNA specifically. Further, these results on a rather small system shed light on the large enthalpy changes observed upon thermal unfolding of large RNAs like group I introns. It is suggested that parts of those large enthalpy changes observed in the folding of RNAs may be assigned to variations in the hydration states and types of coordinating atoms in some specifically bound magnesium ions and to an increase in the observed cooperativity of the folding transition due to the binding of those magnesium ions coupling the two stems together. Brownian dynamic simulations, carried out to visualize the metal ion binding sites, reveal rather delocalized ionic densities in all oligomers, except for the eubacterial loop E, in which precisely located ion densities were previously calculated.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Rangan, Prashanth Masquida, Benoît Westhof, Eric and Woodson, Sarah A. 2003. Assembly of core helices and rapid tertiary folding of a small bacterial group I ribozyme. Proceedings of the National Academy of Sciences, Vol. 100, Issue. 4, p. 1574.

Sosnick, Tobin R and Pan, Tao 2003. RNA folding: models and perspectives. Current Opinion in Structural Biology, Vol. 13, Issue. 3, p. 309.

Auffinger, Pascal Bielecki, Lukasz and Westhof, Eric 2003. The Mg2+ Binding Sites of the 5S rRNA Loop E Motif as Investigated by Molecular Dynamics Simulations. Chemistry & Biology, Vol. 10, Issue. 6, p. 551.

Auffinger, Pascal Bielecki, Lukasz and Westhof, Eric 2004. Symmetric K+ and Mg2+ Ion-binding Sites in the 5S rRNA Loop E Inferred from Molecular Dynamics Simulations. Journal of Molecular Biology, Vol. 335, Issue. 2, p. 555.

de la Fuente, M Hernanz, A. and Navarro, R. 2004. IR and Raman study on the interactions of the 5′-GMP and 5′-CMP phosphate groups with Mg(II), Ca(II), Sr(II), Ba(II), Cr(III), Co(II), Cu(II), Zn(II), Cd(II), Al(III) and Ga(III). JBIC Journal of Biological Inorganic Chemistry, Vol. 9, Issue. 8, p. 973.

Da Rocha Gomes, Sonia Dausse, Eric and Toulmé, Jean-Jacques 2004. Determinants of apical loop–internal loop RNA–RNA interactions involving the HCV IRES. Biochemical and Biophysical Research Communications, Vol. 322, Issue. 3, p. 820.

Green, Nicola H. Williams, Philip M. Wahab, Omar Davies, Martyn C. Roberts, Clive J. Tendler, Saul J.B. and Allen, Stephanie 2004. Single-Molecule Investigations of RNA Dissociation. Biophysical Journal, Vol. 86, Issue. 6, p. 3811.

Fritsch, V. and Westhof, E. 2005. Multiple Aspects of DNA and RNA:From Biophysics to Bioinformatics, École D'ÉtÉ de Physics des Houches Session LXXXII. Vol. 82, Issue. , p. 41.

Richter, Sara N. Gatto, Barbara Tabarrini, Oriana Fravolini, Arnaldo and Palumbo, Manlio 2005. Antiviral 6-amino-quinolones: Molecular basis for potency and selectivity. Bioorganic & Medicinal Chemistry Letters, Vol. 15, Issue. 19, p. 4247.

Mooers, Blaine H. M. Logue, Jeremy S. and Berglund, J. Andrew 2005. The structural basis of myotonic dystrophy from the crystal structure of CUG repeats. Proceedings of the National Academy of Sciences, Vol. 102, Issue. 46, p. 16626.

LAMBERT, MEREDITH NEWBY HOERTER, JOHN A.H. PEREIRA, MIGUEL J.B. and WALTER, NILS G. 2005. Solution probing of metal ion binding by helix 27 fromEscherichia coli16S rRNA. RNA, Vol. 11, Issue. 11, p. 1688.

Tan, Zhi-Jie and Chen, Shi-Jie 2006. Electrostatic free energy landscapes for nucleic acid helix assembly. Nucleic Acids Research, Vol. 34, Issue. 22, p. 6629.

Tan, Zhi-Jie and Chen, Shi-Jie 2006. Nucleic Acid Helix Stability: Effects of Salt Concentration, Cation Valence and Size, and Chain Length. Biophysical Journal, Vol. 90, Issue. 4, p. 1175.

Koculi, Eda Hyeon, Changbong Thirumalai, D. and Woodson, Sarah A. 2007. Charge Density of Divalent Metal Cations Determines RNA Stability. Journal of the American Chemical Society, Vol. 129, Issue. 9, p. 2676.

Tan, Zhi-Jie and Chen, Shi-Jie 2007. RNA Helix Stability in Mixed Na+/Mg2+ Solution. Biophysical Journal, Vol. 92, Issue. 10, p. 3615.

Mitra, Somdeb and Brenowitz, Michael 2008. Nucleic Acid–Metal Ion Interactions. p. 221.

Tan, Zhi-Jie and Chen, Shi-Jie 2008. Salt Dependence of Nucleic Acid Hairpin Stability. Biophysical Journal, Vol. 95, Issue. 2, p. 738.

Jack, K.D. Means, J.A. and Hines, J.V. 2008. Characterizing riboswitch function: Identification of Mg2+ binding site in T box antiterminator RNA. Biochemical and Biophysical Research Communications, Vol. 370, Issue. 2, p. 306.

Spasic, Alex and Mohanty, Udayan 2008. Advances in Chemical Physics. Vol. 139, Issue. , p. 139.

Székely, László Kiessig, Steffen Schwarz, Maria A. and Kálmán, Franka 2009. Capillary gel electrophoresis of therapeutic oligonucleotides – Analysis of single‐ and double‐stranded forms. ELECTROPHORESIS, Vol. 30, Issue. 9, p. 1579.

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Effects of magnesium ions on the stabilization of RNA oligomers of defined structures

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