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The structure of metallo-DNA with consecutive T-HgII-T base-pairs ex-plains positive reaction entropy for the metallo-base-pair formation

Publication at Faculty of Mathematics and Physics |
2014

Abstract

We have determined the three-dimensional (3D) structure of DNA duplex that includes tandem Hg II-mediated T-T base pairs (thymine-Hg II - thymine, T-Hg II -T) with NMR spectroscopy in solution. This is the first 3D structure of metalloDNA (covalently metallated DNA) composed exclusively of 'NATURAL' bases.

The T-Hg II -T base pairs whose chemical structure was determined with the 15 N NMR spectroscopy were well accommodated in a B-form double helix, mimicking normal Watson-Crick base pairs. The Hg atoms aligned along DNA helical axis were shielded from the bulk water.

The complete dehydration of Hg atoms inside DNA explained the positive reaction entropy ("S ) for the T-Hg II -T base pair formation. The positive"S value arises owing to the Hg II dehydration, which was approved with the 3D structure.

The 3D structure explained extraordinary affinity of thymine towards Hg II and revealed arrangement of T-Hg II-T base pairs in metallo-DNA.