Magnesium ions reversibly bind to DNA double stranded helix in thin films.

Kristina Serec, Sanja Dolanski Babić, Silvia Tomić

Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy 2022 Mar 05

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Effects of magnesium (Mg2+) ions on the stability and structural properties of double-stranded DNA are vitally important for DNA folding and functional behavior. Complementing our previous study on highly hydrated thin films of DNA with sodium counterions, with no buffer (pH ≈ 6) and surrounded with Mg2+ cations, here we use Fourier transform infrared spectroscopy and band shape analysis to explore in detail the vibrational signatures of DNA-magnesium interaction in the case when DNA charges are neutralized solely by Mg2+ cations, hereafter called MgDNA. Ion atmosphere has been controlled by the magnesium to phosphate molar concentration ratio r which varied between 0.0067 and 10. For r = 0 we find that spectral features in the base region remain similar as in DNA, whereas changes in the backbone region indicate that the B conformation becomes fully stabilized. With increasing r a pronounced structural reshaping occurs in the phosphate backbone region indicating a blue shift of the asymmetric band, while the symmetric band does not show any displacement in frequency. The band shape analysis of overlapping peaks in the respective phosphate regions demonstrates that the number of constituent modes as well as their positions in frequency do not change, whereas their intensities and bandwidths display disparate changes. The results reflect a variety of local environments at the DNA backbone due to a heterogeneous ion atmosphere with randomly distributed magnesium ions and local patterns of hydrogen bonds which change with increasing r. Remarkably, after crowded r = 10 ion atmosphere is depleted, Mg induced spectral changes vanish and structural features of MgDNA (r ≈ 0) are fully restored. Overall results strongly suggest that in MgDNA on highly hydrated thin films the hydrogen-base pairing remains preserved and that Mg2+ ions, similar to sodium ions, retain their mobility and interact with double helix via water-mediated electrostatic forces. Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.

Citation

Kristina Serec, Sanja Dolanski Babić, Silvia Tomić. Magnesium ions reversibly bind to DNA double stranded helix in thin films. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy. 2022 Mar 05;268:120663