DNA Phase Transition In Charge Neutralilzation And Comformation Induced By Trivalent Hydrolysed Metal Ions

It is well known that common trivalent counter ions can induce DNA compaction or condensation but are unable to invert DNA surface charge in normal aqueous solution.In present study,we found that trivalent hydrolysed metal ions(Fe³⁺,Al³⁺)are not only capable to induce DNA condensation,but also invert the electrophoretic mobility of DNA by electrophoretic light scattering and single molecular techniques.In comparison with neutral trivalent cations,hydrolysed metal ions such as Fe³⁺can induce DNA condensation at much lower concentration of cations,and its corresponding morphology of condensed DNA was directly observed by atomic force microscopy?AFM?.The condensing and unravelling forces of DNA condensates were measured by tethering DNA by magnetic tweezers?MT?measurements at various concentration of Fe³⁺and Al³⁺.We found that a coil-globule transition of DNA by hydrolysed metal ions not only was observed in DNA-complex sizes,but also in the curve of electrophoretic mobility of DNA in solution.In contrast,the transition was not observed in the case of neutral trivalent cations such as La³⁺and Co³⁺.We attribute the transition and charge inversion to the ion specific interaction between hydrolysed metal ions and phosphates of DNA backbone.