Abstract
The conformation of poly[d(T-G)·d(C-A)] in aqueous solution (0.1 M NaClO 4, 5 mM cacodylic acid buffer, pH 6.9) was studied by circular dichroism (CD) spectroscopy in the ultraviolet. The conformation of the polynucleotide, as reflected by its chiroptical signature, changes in a highly cooperative fashion in the presence of Hg(ClO 4) 2. The CD changes signal transitions first from the B to a modified B-state (B *), or to a non-B structure termed X, and finally to a form that is presumably Z. The alterations are totally reversible subsequent to the removal of mercury with the help of a suitable complexing agent such as sodium cyanide, indicating that mercuration does not disrupt Watson-Crick hydrogen bonding to any extent.
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