Cyclic voltammetry (CV) and single-step chronocoulometry were used to study the interaction of [Ru(phen)2dppz]2+ (phen=1,10-phenanthroline; dppz=dipyrido[3,2-a:2′,3′-c]phen- azine) with herring sperm DNA. The additi...Cyclic voltammetry (CV) and single-step chronocoulometry were used to study the interaction of [Ru(phen)2dppz]2+ (phen=1,10-phenanthroline; dppz=dipyrido[3,2-a:2′,3′-c]phen- azine) with herring sperm DNA. The addition of DNA caused a diminution in the peak current and a positive shift in the peak potential of the complex of [Ru(phen)2dppz]2+. The 12 mV positive shift in the peak potential of [Ru(phen)2dppz]2+ indicates that [Ru(phen)2dppz]2+ binds 2.6 times more strongly to DNA than its reductive form. In addition, by using fluorimetric and UV-spectrophotometric methods and studies of denatured DNA and the effect of NaCl solution, it was also found that the binding mode was intercalation. The decrease of peak current is proportional to the concentration of DNA, which can be applied to estimate DNA concentration.展开更多
The transient luminescence of three kinds of ruthenium complexes [Ru(bpy)2(7-CH3-dppz)]2+, [Ru(bpy)2(7-F-dppz)]2+ and [Ru(phen)2(7-F-dppz)]2+ bound to calf thy-mus DNA (ctDNA) has been studied by using the time-resolv...The transient luminescence of three kinds of ruthenium complexes [Ru(bpy)2(7-CH3-dppz)]2+, [Ru(bpy)2(7-F-dppz)]2+ and [Ru(phen)2(7-F-dppz)]2+ bound to calf thy-mus DNA (ctDNA) has been studied by using the time-resolved spectroscopy. The results show that the luminescence is due to the radiative decay from the charge-transfer states to the ground state. By the interaction with DNA, the radia-tiveless rate of the photoexcited Ru complex molecules decreases, which results in the increase of luminescence lifetime and efficiency. The structure of the Ru com-plex has an important impact on the interaction with DNA. The [Ru(bpy)2(7-CH3-dppz)]2+ shows the longest luminescence lifetime (about 382 ns), while the [Ru(bpy)2(7-F-dppz)]2+ shows the shortest lifetime (about 65 ns). The possible origin of the luminescence dynamics is discussed.展开更多
Structure Activity-Relationships (SARs) of the five possible isomers of RuCl<sub>2</sub>(Azpy)<sub>2</sub> were predicted thanks to DFT method. Azpy stands for 2-phenylazopyridine and the struc...Structure Activity-Relationships (SARs) of the five possible isomers of RuCl<sub>2</sub>(Azpy)<sub>2</sub> were predicted thanks to DFT method. Azpy stands for 2-phenylazopyridine and the structure of the isomers α-RuCl<sub>2</sub>(Azpy)<sub>2</sub>, β-RuCl<sub>2</sub>(Azpy)<sub>2</sub>, γ-RuCl2(Azpy)2, δ-RuCl<sub>2</sub>(Azpy)<sub>2</sub> and ε-RuCl<sub>2</sub>(Azpy)<sub>2</sub> call respectively α-Cl, β-Cl, γ-Cl, δ-Cl and ε-Cl are defined according to chlorine atoms orientations. Hence, they are divided into two groups. In the first group comprising α-Cl, β-Cl and ε-Cl, both chlorine atoms are in cis position and Azpy ligands are intervertical. Whereas the two others isomers (γ-Cl and δ-Cl), they form the second group. Here, both chlorine are in trans position and Azpy are planar. The five synthesized isomers were investigated as potential antitumor agents. Then, regarding the DNA, its bases are stacked by pair. Therefore, complexes are assumed to insert and to stack on them through intercalative mode. So the electronic and geometric structures become more important to describe their SARs. Consequently, group 2 regarding γ-Cl and δ-Cl presents the best structure to allow intercalation between DNA base-pairs. Besides, the energy order of the lower unoccupied molecular orbital (LUMO) of the isomers is ELUMO(β-Cl) > ELUMO(α-Cl) > ELUMO(ε-Cl) > ELUMO(γ-Cl) > ELUMO(δ-Cl). The energy gap between LUMO and HOMO was also sorted as Δ(L-H)(β-Cl) > Δ(L-H)(α-Cl) > Δ(L-H)(ε-Cl) > Δ(L-H)(γ-Cl) > Δ(L-H)(δ-Cl). In addition, the total dipole moment was classified as μ(ε-Cl) > μ(β-Cl) > μ(α-Cl) > μ(γ-Cl) > μ(δ-Cl). Finally, net charge of the ligand Azpy was also classified as QL(δ-Cl) > QL(γ-Cl) > QL(ε-Cl) > QL(α-Cl) > QL(β-Cl). All those parameters show that δ-Cl isomer displays the highest activity as antitumor drug when intercalating between the DNA basepairs Cytosine-Guanine/Cytosine-Guanine (CG/CG).展开更多
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
文摘Cyclic voltammetry (CV) and single-step chronocoulometry were used to study the interaction of [Ru(phen)2dppz]2+ (phen=1,10-phenanthroline; dppz=dipyrido[3,2-a:2′,3′-c]phen- azine) with herring sperm DNA. The addition of DNA caused a diminution in the peak current and a positive shift in the peak potential of the complex of [Ru(phen)2dppz]2+. The 12 mV positive shift in the peak potential of [Ru(phen)2dppz]2+ indicates that [Ru(phen)2dppz]2+ binds 2.6 times more strongly to DNA than its reductive form. In addition, by using fluorimetric and UV-spectrophotometric methods and studies of denatured DNA and the effect of NaCl solution, it was also found that the binding mode was intercalation. The decrease of peak current is proportional to the concentration of DNA, which can be applied to estimate DNA concentration.
基金the National Natural Science Foundation of China (Grant Nos. 60478013 and 20571089)The Key Program of Natural Science Foundation of Guangdong Province of China (Grant No. 05101819)+1 种基金the Doctoral Program Foundation of Institutions of Higher Education of China (Grant No. 20040558031)the Scientific Research Foundation of Maoming College (Grant No. 203346)
文摘The transient luminescence of three kinds of ruthenium complexes [Ru(bpy)2(7-CH3-dppz)]2+, [Ru(bpy)2(7-F-dppz)]2+ and [Ru(phen)2(7-F-dppz)]2+ bound to calf thy-mus DNA (ctDNA) has been studied by using the time-resolved spectroscopy. The results show that the luminescence is due to the radiative decay from the charge-transfer states to the ground state. By the interaction with DNA, the radia-tiveless rate of the photoexcited Ru complex molecules decreases, which results in the increase of luminescence lifetime and efficiency. The structure of the Ru com-plex has an important impact on the interaction with DNA. The [Ru(bpy)2(7-CH3-dppz)]2+ shows the longest luminescence lifetime (about 382 ns), while the [Ru(bpy)2(7-F-dppz)]2+ shows the shortest lifetime (about 65 ns). The possible origin of the luminescence dynamics is discussed.
文摘Structure Activity-Relationships (SARs) of the five possible isomers of RuCl<sub>2</sub>(Azpy)<sub>2</sub> were predicted thanks to DFT method. Azpy stands for 2-phenylazopyridine and the structure of the isomers α-RuCl<sub>2</sub>(Azpy)<sub>2</sub>, β-RuCl<sub>2</sub>(Azpy)<sub>2</sub>, γ-RuCl2(Azpy)2, δ-RuCl<sub>2</sub>(Azpy)<sub>2</sub> and ε-RuCl<sub>2</sub>(Azpy)<sub>2</sub> call respectively α-Cl, β-Cl, γ-Cl, δ-Cl and ε-Cl are defined according to chlorine atoms orientations. Hence, they are divided into two groups. In the first group comprising α-Cl, β-Cl and ε-Cl, both chlorine atoms are in cis position and Azpy ligands are intervertical. Whereas the two others isomers (γ-Cl and δ-Cl), they form the second group. Here, both chlorine are in trans position and Azpy are planar. The five synthesized isomers were investigated as potential antitumor agents. Then, regarding the DNA, its bases are stacked by pair. Therefore, complexes are assumed to insert and to stack on them through intercalative mode. So the electronic and geometric structures become more important to describe their SARs. Consequently, group 2 regarding γ-Cl and δ-Cl presents the best structure to allow intercalation between DNA base-pairs. Besides, the energy order of the lower unoccupied molecular orbital (LUMO) of the isomers is ELUMO(β-Cl) > ELUMO(α-Cl) > ELUMO(ε-Cl) > ELUMO(γ-Cl) > ELUMO(δ-Cl). The energy gap between LUMO and HOMO was also sorted as Δ(L-H)(β-Cl) > Δ(L-H)(α-Cl) > Δ(L-H)(ε-Cl) > Δ(L-H)(γ-Cl) > Δ(L-H)(δ-Cl). In addition, the total dipole moment was classified as μ(ε-Cl) > μ(β-Cl) > μ(α-Cl) > μ(γ-Cl) > μ(δ-Cl). Finally, net charge of the ligand Azpy was also classified as QL(δ-Cl) > QL(γ-Cl) > QL(ε-Cl) > QL(α-Cl) > QL(β-Cl). All those parameters show that δ-Cl isomer displays the highest activity as antitumor drug when intercalating between the DNA basepairs Cytosine-Guanine/Cytosine-Guanine (CG/CG).
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.
