双核钌(II)多吡啶配合物与酵母RNA的相互作用研究

用紫外-可见吸收光谱和荧光光谱滴定、稳态荧光淬灭和反向盐滴定实验研究了双核钌(II)配合物[(bpy)2Ru(ebipcH2)Ru(bpy)2](ClO4)4 {bpy=2,2'-联吡啶; ebipcH2=N-乙基-4,7-二(咪唑-[4,5-f]-(1,10-邻菲啰啉)-2-基)咔唑}与酵母RNA 的相互作用. 结果表明该双核配合物以插入方式与酵母RNA 作用, 在生理盐浓度下(≈150 mmol/L NaCl)该配合物与RNA 的相互作用明显强于DNA.     

手性双核钌(Ⅱ)配合物与DNA的相互作用研究

本文合成了1对手性双核钌(Ⅱ)配合物ΔΔ-和ΛΛ-[(bpy)₂Ru(mbpibH₂)Ru(bpy)₂](ClO₄)₄(bpy=2,2′-联吡啶,mbpibH₂=1,3-二(咪唑并[4,5-f][1,10-邻菲咯啉])苯)。通过元素分析、质谱、核磁共振、CD光谱对这两个化合物进行了结构表征。采用循环伏安法对配合物的电化学性质进行了分析。利用紫外-可见吸收光谱滴定、荧光光谱滴定     

一种含吲哚咪唑基Ru(II)配合物的酸碱性质和与DNA相互作用的研究

合成了一个新的Ru(II)配合物[Ru(bpy)₂(H₂iip)](ClO₄)₂•5H₂O [bpy＝2,2'-联吡啶, H₂iip＝2-吲哚基-咪唑并[4,5-ƒ][1,10]-邻菲罗啉]. 通过酸碱滴定发射光谱测定了该配合物的表观电离常数; 用紫外可见光谱、荧光光谱、稳态荧光淬灭、溴化乙锭竞争键合、粘度测量和DNA裂解实验研究了配合物与DNA的相互作用性质. 结果表明配合物以经典的插入模式与DNA键合, 键合常数K_b＝(5.97±0.27)×10⁵ mol^－1•L (50 mmol/L NaCl).     

带有位阻基团的钌多吡啶配合物与DNA键合及其光断裂DNA性质的研究

合成了两个钌多吡啶配合物[Ru(bpy)₂DMNP](C1O₄)₂ (Ru1)和[Ru(bpy)₂BOPIP](C1O₄)₂ (Ru2), 应用元素分析、核磁共振对配合物结构进行了表征, 通过电子吸收光谱、荧光光谱、粘度实验以及凝胶电泳技术对配合物与DNA相互作用的性质进行了研究. 结果表明, 配合物与DNA分子之间以插入模式结合. 在紫外光照下, 两种配合物均能使质粒pBR322DNA断裂, 机理研究表明, 其光断裂DNA的活性氧化物种为单线态氧.     

一种含吲哚咪唑基Ru(II)配合物的酸碱性质和与DNA相互作用的研究

合成了一个新的Ru(II)配合物[Ru(bpy)₂(H₂iip)](ClO₄)₂•5H₂O [bpy＝2,2'-联吡啶, H₂iip＝2-吲哚基-咪唑并[4,5-ƒ][1,10]-邻菲罗啉]. 通过酸碱滴定发射光谱测定了该配合物的表观电离常数; 用紫外可见光谱、荧光光谱、稳态荧光淬灭、溴化乙锭竞争键合、粘度测量和DNA裂解实验研究了配合物与DNA的相互作用性质. 结果表明配合物以经典的插入模式与DNA键合, 键合常数K_b＝(5.97±0.27)×10⁵ mol^－1•L (50 mmol/L NaCl).     

2,2′-联嘧啶和二硫烯双核钴混配配合物的合成和晶体结构

以2,2′-联嘧啶(bpy)和马来二腈基阴离子(mnt)为配体合成了一个双核钴混配配合物(C₄H₉)₄N₂(Co(mnt)₂)₂(bpy)(1)((C₄H₉)₄N=tetrabutylammonium), 并用X-射线单晶衍射方法测定了该配合物的晶体结构:配合物属单斜晶系, P2₁/c空间群, a=2.368 2(2) nm, b=1.582 11(13) nm, c=1.873 85 (16) nm, β=105.834(2)。此外, 还对该配合物进行了热重(TGA)、紫外可见光谱(UV)、红外光谱(IR)、X-射线光电子能谱(XPS)、变温磁化率和电化学循环伏安(CVs)等性质的研究;数据表明相邻的金属钴离子之间存在反铁磁相互作用。     

含二胺均三嗪衍生物的钌(II)配合物的合成、晶体结构、电化学及光谱性质

钌(II)多吡啶配合物在光化学、物理学、光催化、电化学、光电化学、电子转移和能量传递、分子组装等领域一直扮演者非常重要的角色. 钌(II)多吡啶配合物的分子结构具有很大的可塑性, 通过往配体上接入各种不同类型官能团, 可以设计出各种各样具有不同分子识别功能的分子器件. 本文在钌(II)配合物中引入二氨均三嗪基团, 设计合成了三个新型的钌(II)多吡啶配合物 [Ru(bpy)₂(1-IQTNH)](ClO₄)2 (1), [Ru(bpy)₂(2-QTNH)](ClO₄)₂ (2) 和 [Ru(bpy)₂(3-IQTNH)](ClO₄)₂ (3) (bpy = 2,2′-bipyridine, 1-IQTNH = 6-(isoquinolin-1-yl)-1,3,5-triazine-2,4- diamine, 2-QTNH = 6-(quinolin-2-yl)-1,3,5-triazine-2,4-diamine, 3-IQTNH = 6-(isoquinolin-3-yl)-1,3,5-triazine-2,4- diamine). 通过元素分析、ES-MS、1H NMR进行结构表征, 确证了它们的组成. 用X射线单晶衍射测定了配合物[Ru(bpy)₂(2-QTNH)](ClO₄)₂·2H₂O和[Ru(bpy)₂(3-IQTNH)](ClO₄)₂的晶体结构. 配合物2和3都属单斜晶系. 晶体结构表明, 配合物中钌(II)均具有畸变八面体几何构型. 分子计算表明配体1-IQTNH和2-QTNH在电子结构性质方面很相似并具有比bpy和3-IQTNH能量更低的LUMO. 实验结果与分子计算一致, 电化学实验证明在配合物1和2中, 最稳定的LUMO轨道位于配体1-IQTNH和2-QTNH, 而配合物3中最稳定的LUMO轨道位于配体bpy. 从吸收光谱中可观察到, 由于具有比bpy更大的?电子共轭体系, 配合物1和2的MLCT峰都发生了明显红移. 以上实验结果表明, 配体结构的改变, 导致配合物1~3表现出和[Ru(bpy)₃]²⁺不同程度的性质差异.     

新型双核配合物的形成、与DNA的作用机制及荧光性质研究

利用紫外、荧光和粘度等方法研究了含不同配体的钌(II)配合物[Ru(phen)₂CImP]^2＋(CImP＝3,4-二羟基-咪唑并[4,5-i][1,10]邻菲咯啉)和[Ru(phen)₂TPPZ]^2＋(TPPZ＝四吡啶[3,2-a:2',3'-c:3',2'-h:2'',3''-j]吩嗪)与DNA的作用机制, 并研究了配合物与Zn^2＋配合后荧光性质变化. 结果表明[Ru(phen)₂TPPZ]^2＋与DNA以插入模式作用, 而[Ru(phen)₂CImP]^2＋与DNA则以沟面结合模式作用. 向配合物溶液中滴加Zn^2＋后, 配合物[Ru(phen)₂TPPZ]^2＋和[Ru(phen)₂CImP]^2＋均可以与Zn^2＋形成双核配合物[Ru(phen)₂(TPPZ)Zn]^4＋和[Ru(phen)₂(CImP)Zn]^4＋, 配合物的荧光减弱. 与DNA作用后, 配合物仍可以与Zn^2＋配位形成双核配合物, 但[Ru(phen)₂(TPPZ)Zn]^4＋保持插入模式与DNA作用, 配合物的荧光减弱. 而[Ru(phen)₂(CImP)Zn]^4＋与DNA则由沟面结合改为插入结合, 配合物的荧光增强.     

一个嫁接有羧酸羟基乙基酯的二吡啶吩嗪Ru(II)配合物的合成、与DNA的相互作用以及溶剂变色性质的研究

合成并表征了一个新的Ru(II)配合物[Ru(bpy)₂(hedppc)](ClO₄)₂ {bpy＝2,2'-联吡啶, hedppc＝二联吡啶[3,2-a: 2',3'-c]吩嗪-11-羧酸(2-羟乙基)酯}. 通过紫外-可见吸收光谱、与溴化乙锭竞争实验、粘度测量和DNA裂解实验研究了配合物与小牛胸腺DNA的相互作用性质. 结果表明配合物以插入模式与DNA键合，键合常数K_b＝(6.99±1.34)×10⁶ mol^－1•L (s＝2.03±0.04)与母体配合物[Ru(bpy)₂ (dppz)]^2＋相近，但光致发光和溶剂变色等光学性质与[Ru(bpy)₂ (dppz)]^2＋有明显的差别.     

一种含咔唑基团的混配型钌(II)配合物的合成、表征和酸碱性质研究

合成了钌(II)配合物cis-[Ru(HL)(Hdcbpy)(NCS)₂]^－•[N(C₄H₉)₄]^＋ (HL＝2-(9-乙基-9H-3-咔唑基)-1H-咪唑[4,5-f] [1,10]邻菲啰啉, H₂dcbpy＝4,4'-二羧酸-2,2'-联吡啶). 采用元素分析、核磁共振氢谱、红外光谱、紫外-可见吸收光谱、质谱(MS)对配合物进行了表征. 通过紫外-可见吸收光谱和稳态荧光光谱, 研究了该配合物的基态和激发态酸碱性质. 结果表明该配合物在基态时能发生5步质子化/去质子化反应, 表现出基于光致发光强度和激发态能量转移途径的质子化/去质子化诱导的分子开关性质.     

一个嫁接有羧酸羟基乙基酯的二吡啶吩嗪Ru(II)配合物的合成、与DNA的相互作用以及溶剂变色性质的研究

合成并表征了一个新的Ru(II)配合物[Ru(bpy)₂(hedppc)](ClO₄)₂ {bpy＝2,2'-联吡啶, hedppc＝二联吡啶[3,2-a: 2',3'-c]吩嗪-11-羧酸(2-羟乙基)酯}. 通过紫外-可见吸收光谱、与溴化乙锭竞争实验、粘度测量和DNA裂解实验研究了配合物与小牛胸腺DNA的相互作用性质. 结果表明配合物以插入模式与DNA键合,键合常数K_b＝(6.99±1.34)×10⁶ mol^－1•L (s＝2.03±0.04)与母体配合物[Ru(bpy)₂ (dppz)]^2＋相近,但光致发光和溶剂变色等光学性质与[Ru(bpy)₂ (dppz)]^2＋有明显的差别.     

Ruthenium(II) complexes of pyrrol-azo ligands: cytotoxicity,interaction with calf thymus DNA and bovine serum albumin

Two ruthenium(II) complexes of newly designed pyrrol-azo ligands(L) and bipyridine(bpy) formulated as [Ru(L)(bpy)₂]ClO₄, where HL^1?=?(4-chloro-phenyl)-(1H-pyrrol-2-yl)-diazene (1) complex 1 and HL^2?=?(4-nitro-phenyl)-(1H-pyrrol-2-yl)-diazene for 2, were isolated in pure form. The complexes were characterized by physicochemical and spectroscopic methods. The electrochemical behavior of the complexes showed the Ru(III)/Ru(II) couple at different potentials with quasi-reversible voltammograms. The study of cytotoxicity effects of 1 and 2 on human breast cancer cells (MCF 7, MDA-MB 231) and cervical cancer cell (HeLa) taking Cisplatin as a positive reference showed that 1 exhibited higher cytotoxicity against cancer cell lines than 2, but less activity than Cisplatin. The interaction of 1 with calf thymus DNA (CT-DNA) using absorption, emission spectral studies, viscosity-measurement, and electrochemical techniques has been used to determine the binding constant K _b and the linear Stern–Volmer quenching constant K _SV. The results indicate that 1 strongly interacts with CT-DNA in groove binding mode. The interaction of bovine serum albumin (BSA) with 1 was also investigated with the help of spectroscopic tools. Absorption spectroscopy proved the formation of a BSA-[Ru(L¹)(bpy)₂]ClO₄ complex.     

Spectral Properties of Ruthenium(II) Mixed-Ligands Complexes with 2,2'-Bipyridyl and Phosphines

Spectral-kinetic luminescence characteristics of the complexes cis-[Ru(bpy)(dppe)X2], cis- [Ru(bpy)2(PPh₃)X](BF₄) and cis-[Ru(bpy)₂X₂] [bpy = 2,2'-bipyridyl, dppe = 1,2-bis(diphenylphosphino)ethane, PPh₃ is triphenylphosphine, X = NO₂ ^- and CN^-] in the ethanol-methanol 4:1 mixtures and adsorbed on the oxide SiO₂ or porous polyacrylonitrile polymer surface were studied. Luminescence and luminescence exitation spectra were registered at 77 and 293 K in 230-750 nm range and the luminescence decay time was measured. Introduction of phosphine ligands to the ruthenium(II) bipyridyl complexes inner sphere leads to rise in singlet and triplet state energy at the charge transfer from Ru(II) to 2,2'-bipyridyl in the series [Ru(bpy)₂X₂] < Ru(bpy)₂(PPh₃)X](BF₄) < [Ru(bpy)(dppe)X₂]. The complex adsorption on SiO₂ or polyacrylonitrile surface affects noticeably the luminescence spectro-kinetic characteristics.     

一个新型钌(Ⅱ)配合物的合成、表征与DNA的键合及溶剂变色性质

合成和表征了1个新的钌(Ⅱ)配合物[Ru(bpy)₂(dpapz)](ClO₄)₂,其中bpy=2,2'-联吡啶,dpapz=联吡啶并[3,2-a:2,'3-'c]-6-氮杂-吩嗪.通过紫外可见光谱、荧光光谱、与溴化乙锭的竞争键合实验和粘度测量研究了该配合物与小牛胸腺DNA的键合性质,并研究了该配合物的紫外可见光谱和荧光光谱的溶剂变色性质.结果表明,该配合物是具有键合常数Kb=6.9×10⁵L/mol(50mmol/LNaCl)的DNA嵌入键合试剂和优良的荧光溶剂传感分子.     

Chemistry of Ruthenium Polypyridine Complexes: IX. Nitro-Nitrosyl Equilibrium in cis-[Ru(2,2'-bpy)2(L)NO2]+ Complexes

Ruthenium(II) bisbipyridyl complexes cis-[Ru(bpy)₂(L)NO₂](BF₄) (bpy is 2,2'-bipyridyl) with 4-substituted pyridine ligands L = 4-(Y)py (Y = NH₂, Me, Ph, and CN) were obtained. The equilibrium constants of the reversible nitro-nitrosyl transition [Ru(bpy)₂(L)NO₂]⁺ + 2H⁺ [Ru(bpy)₂(L)NO]^{3 +} + H₂O were measured in solutions with pH 1.5-8.5 (ionic strength 0.4). The constants correlate with the protonation constants of free ligands 4-(Y)py.     

Tuning the Electronic Properties in Ruthenium–Quinone Complexes through Metal Coordination and Substitution at the Bridge

A rare example of a mononuclear complex [(bpy)₂Ru(L¹_?H)](ClO₄), 1 (ClO₄) and dinuclear complexes [(bpy)₂Ru(μ‐L¹_?2H)Ru(bpy)₂](ClO₄)₂, 2 (ClO₄)₂, [(bpy)₂Ru(μ‐L²_?2H)Ru(bpy)₂](ClO₄)₂, 3 (ClO₄)₂, and [(bpy)₂Ru(μ‐L³_?2H)Ru(bpy)₂](ClO₄)₂, 4 (ClO₄)₂ (bpy=2,2′‐bipyridine, L¹=2,5‐di‐(isopropyl‐amino)‐1,4‐benzoquinone, L²=2,5‐di‐(benzyl‐amino)‐1,4‐benzoquinone, and L³=2,5‐di‐[2,4,6‐(trimethyl)‐anilino]‐1,4‐benzoquinone) with the symmetrically substituted p‐quinone ligands, L, are reported. Bond‐length analysis within the potentially bridging ligands in both the mono‐ and dinuclear complexes shows a localization of bonds, and binding to the metal centers through a phenolate‐type “O^?” and an immine/imminium‐type neutral “N” donor. For the mononuclear complex 1 (ClO₄), this facilitates strong intermolecular hydrogen bonding and leads to the imminium‐type character of the noncoordinated nitrogen atom. The dinuclear complexes display two oxidation and several reduction steps in acetonitrile solutions. In contrast, the mononuclear complex 1 ⁺ exhibits just one oxidation and several reduction steps. The redox processes of 1 ¹⁺ are strongly dependent on the solvent. The one‐electron oxidized forms 2 ³⁺, 3 ³⁺, and 4 ³⁺ of the dinuclear complexes exhibit strong absorptions in the NIR region. Weak NIR absorption bands are observed for the one‐electron reduced forms of all complexes. A combination of structural data, electrochemistry, UV/Vis/NIR/EPR spectroelectrochemistry, and DFT calculations is used to elucidate the electronic structures of the complexes. Our DFT results indicate that the electronic natures of the various redox states of the complexes in vacuum differ greatly from those in a solvent continuum. We show here the tuning possibilities that arise upon substituting [O] for the isoelectronic [NR] groups in such quinone ligands.     

Enhanced Photostability of a Ruthenium(II) Polypyridyl Complex under Highly Oxidizing Aqueous Conditions by Its Partial Inclusion into a Cyclodextrin

The complex [Ru(bpy)₂L]²⁺, where bpy=2,2′‐bipyridine, L=4‐(phenylethynyl)‐2,2′‐bipyridine, was prepared in its racemic and resolved forms (Δ and Λ). The phenylethynyl unit on the bipyridine for the complex acts as a binding site for α‐cyclodextrin in water (1:1 complex, K=3390 L mol^?1) or β‐cyclodextrin (2:1 complex, K₁=887 L mol^?1, K₂=8070 L mol^?1). The presence of the cyclodextrin provides partial protection to the complex under light‐activated water oxidation conditions.     

Investigation of DNA/BSA binding of three Ru(II) complexes by various spectroscopic methods,molecular docking and their antimicrobial activity

An intercalative ligand, ppip (ppip = {2-(4-(piperidin-1-yl)phenyl)-1H-imidazo[4,5-f][1,10]phenanthroline}), and its mononuclear Ru(II) polypyridyl complexes, [Ru(phen)₂(ppip)]²⁺ (1) (phen=1,10-phenanthrolene), [Ru(bpy)₂(ppip)]²⁺ (2) (bpy=2,2′-bipyridine) and [Ru(dmb)₂(ppip)]²⁺ (3) (dmb=4,4′-dimethyl-2,2′-bipyridine), have been synthesized and characterized by elemental analysis and spectroscopic techniques such as UV–vis, IR, ¹H, as well as ¹³C NMR and ESI-MS. The interaction of these complexes with DNA/BSA (bovine serum albumin) was investigated using absorption, emission spectroscopy, viscosity measurements and molecular docking studies. The docking study infers that the binding strength (K_b) of these complexes was in agreement with results from absorption and emission techniques. These studies reveal that these three Ru(II) polypyridyl complexes bind to DNA/BSA. The binding ability of these complexes in the presence of different ions and solvents were also reported. All complexes were effectively cleaving pBR322 DNA in different forms and follows order which is similar to absorption and emission studies. These complexes were effective exhibiting the antimicrobial activity against different microbes Bacillus subtilis, Escherichia coli and Staphylococcus aureus.     

一种新型含二茂铁基的多吡啶钌配合物与DNA的相互作用

利用金属配合物与DNA作用前后的光电性质变化探索大分子DNA的结构、构象、生物功能和作用机制之间的规律是无机化学前沿研究热点．Koepf等发现二氯二茂钛[(C6H5)2TiCl2]具有抗肿瘤活性,开创了金属茂类抗癌络合物研究的新领域,大量实验表明：金属茂类化合物不仅具有广泛的抗癌谱,