Quadruplex structure of polyriboinosinic acid: dependence on alkali metal ion concentration, pH and temperature.

The vibrational infrared (IR) absorption and vibrational circular dichroism (VCD) spectral changes of polyinosinic acid (polyI) as a function of alkali metal ion concentration, temperature and pH have been investigated to establish how changes in spectral features relate to the structural modifications of polyI. A single positive VCD couplet associated with the carbonyl absorption band is considered to be the signature of quadruplex structure for polyI. The disruption of the quadruplex structure with temperature increase or pH increase at low alkali metal ion concentration is evidenced by the disappearance of this positive VCD couplet. The absence of any VCD signal upon quadruplex disruption indicates that the newly formed structure lacks helical chirality and is likely to be disordered. In the presence of 1 M NaCl or 0.1 M NaCl, the heat-induced quadruplex disruption is completely reversible. A mildly alkaline environment, in the presence of 0.1 M NaCl, is not sufficient to support the quadruplex structure of polyI. Trehalose-assisted polyI film at room temperature exhibits the same quadruplex spectral signature as that seen for solution at room temperature, but the quadruplex spectral signature in the film state remains at higher temperature, unlike in solution. This indicates that the quadruplex structure of polyI in the film state resists heat-induced disruptions.