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  • Title: Conformational lability of poly(dG-m5dC):poly(dG-m5dC).
    Author: Chen FM.
    Journal: Nucleic Acids Res; 1986 Jun 25; 14(12):5081-97. PubMed ID: 3725592.
    Abstract:
    The remarkable conformational lability of poly(dG-m5dC):poly(dG-m5dC) is demonstrated by the observation of an acid-mediated conformational hysteresis. An acid-mediated Z conformation that exists in solutions containing low sodium concentrations that would normally favor the B conformation is described in this report. This Z conformation is reached by an acid-base titration of a B-poly(dG-m5dC):poly(dG-m5dC) solution which is not far from the B-Z transition midpoint. The resulting Z conformation is thermally very stable, with direct melting into single strands at approximately 100 degrees C. In contrast, the B form DNA, initially in solutions of the same ionic strength but without exposure to acidic pH, exhibits a biphasic melting profile, with conversion into the Z form (with high cooperativity) prior to an eventual denaturation into single strands at around 100 degrees C. Cooling experiments reveal that such biphasic transitions are quite reversible. The transition midpoint for the thermally poised B to Z transformation depends strongly on the NaCl concentration and varies with sample batch. The acid-mediated Z form binds ethidium more weakly than its B counterpart, and the ethidium induced Z to B conversion occurs in a step-wise (non-allosteric) fashion without the requirement of a threshold concentration. The acid-mediated as well as the thermally poised Z conformations are reversed by the addition of EDTA, suggesting the involvement of trace amounts of multivalent metal ions.
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