A new complex of bis(N-benzyl benzotriazole-N3) dichloro Co(II) (Co(II)L2Cl2) was synthesized and its crystal was characterized. The interaction of this new complex with fs-DNA was studied by electrochemical and UV ...A new complex of bis(N-benzyl benzotriazole-N3) dichloro Co(II) (Co(II)L2Cl2) was synthesized and its crystal was characterized. The interaction of this new complex with fs-DNA was studied by electrochemical and UV spectrophotometric method. In 0.01 mol/L pH 4.2 Tris-HCl buffer solution Co(II)L2Cl2 has two reductive peaks with peak potentials at 0.38 V and 0.27 V, respectively, and an oxidative peak at 1.05 V. After the addition of DNA, the peak currents decrease and the peak potential at 0.27 V shifts negatively. The UV spectrophotometric experiment indicates that the maximum absorbance of Co(II)L2Cl2 at 204 nm decreases and exhibits bathochromic shift after the addition of DNA. All the results reveal that Co(II)L2Cl2 binds with DNA by intercalation as well as electrostatic interaction.展开更多
基金supported by the National Nature Science Foundation of China(Grant No.20375020)
文摘A new complex of bis(N-benzyl benzotriazole-N3) dichloro Co(II) (Co(II)L2Cl2) was synthesized and its crystal was characterized. The interaction of this new complex with fs-DNA was studied by electrochemical and UV spectrophotometric method. In 0.01 mol/L pH 4.2 Tris-HCl buffer solution Co(II)L2Cl2 has two reductive peaks with peak potentials at 0.38 V and 0.27 V, respectively, and an oxidative peak at 1.05 V. After the addition of DNA, the peak currents decrease and the peak potential at 0.27 V shifts negatively. The UV spectrophotometric experiment indicates that the maximum absorbance of Co(II)L2Cl2 at 204 nm decreases and exhibits bathochromic shift after the addition of DNA. All the results reveal that Co(II)L2Cl2 binds with DNA by intercalation as well as electrostatic interaction.
