Co(Ⅱ)、Ni(Ⅱ)非有机溶剂液液萃取行为的研究

本文研究了ＰＥＧ２０００铬菁Ｒ（ＮＨ４）２ＳＯ４体系对Ｃｏ（Ⅱ）、Ｎｉ（Ⅱ）的非有机溶剂萃取行为。指出在ｐＨ＝５的（ＮａＡｃＨＡｃ）水溶液中，有（ＮＨ４）２ＳＯ４存在下，Ｎｉ（Ⅱ）可被ＰＥＧ相几乎完全萃取，而Ｃｏ（Ⅱ）则基本上不被萃取。从而获得了Ｃｏ（Ⅱ）与Ｎｉ（Ⅱ）混合离子的定量分离。     

铜锌超氧化物歧化酶与色氨酸钴(Ⅱ)的相互作用

采用ＶＩＳ、ＩＣＰ及酶活性测定等方法,研究铜锌超氧歧化酶（Ｃｕ２Ｚｎ２ＳＯＤ）与色氨酸钴（Ⅱ）（Ｃｏ（Ｔｒｐ）＾ｎ）的直接相互作用以及外加色氨酸钴（Ⅱ）的量、溶液ｐＨ值对此类相互作用的影响。结果发现：在水溶液中原酶活性中心处的Ｚｎ（Ⅱ）离子可被外加的色氨酸钴（Ⅱ）部分诱导、交换出来,而溶液中外加的Ｃｏ（Ｔｒｐ）＾ｎ中的Ｃｏ（Ⅱ进入酶的活性中心,形成“Ｃｏ－ＳＯＤ”酶衍生物,并相应影响了酶的催化活性     

光谱、波谱法研究铜锌超氧歧化酶与氯化钴(Ⅱ)、组氨酸钴(Ⅱ)相互作用

我们首次发现的铜锌超氧歧化酶（Ｃｕ２Ｚｎ２ＳＯＤ）与氨基酸等发生直接相互作用的现象,是一种前人未研究过的重要的生化新现象［１］。在此新发现的基础上,本文用ＩＣＰ,ＶＩＳ,ＮＭＲ和酶活性测定等方法,又从不同角度拓展研究了Ｃｕ２Ｚｎ２ＳＯＤ酶与两类不同化合物,即无机氯化钴（ＣｏＣｌ２）、有机组氨酸钴（Ｃｏ（Ⅱ）（Ｈｉｓ）ｎ）的直接相互作用,发现酶活性中心金属离子同样与外加的这两类不同化合物发生相互作用,相应地影响了酶的催化活性。还发现Ｃｏ（Ⅱ）（Ｈｉｓ）ｎ比ＣｏＣｌ２与酶相互作用更强、更快,Ｃｏ（Ⅱ）（Ｈｉｓ）ｎ中的Ｃｏ（Ⅱ）更易进入酶中,更影响了酶的催化活性。     

钼（钨）─铜─硫─二烷基二硫代甲酸根原子簇化合物的核磁共振研究

用１Ｈ、１３Ｃ、９５ＭｏＮＭＲ技术研究了一系列Ｍｏ（Ｗ）—ＣＯ—Ｓ一ｄｔｃ原子簇化合物，并用动态９５ＭｏＮＭＲ技术跟踪了ＭｏＯｎＳ４（ｎ＝０，２），ＣｕＣｌ，Ｒ２ｄｔｃ（Ｒ２＝Ｍｅ２，Ｅｔ２）几个反应，在此基础上推导了该系列化合物的形成机理．     

水溶液中N－烷基亚胺二乙酸二氨铂（Ⅱ）配合物的~（13）CNMR研究

在不同ｐＨ条件下以Ｎ－烷基亚胺二乙酸［Ｒ－Ｎ（ＣＨ２ＣＯＯＨ）２，Ｒ＝Ｍｅ，ｉ－Ｐｒ，ｎ－Ｐｒ，ＨＯ—Ｅｔ］为配体合成了一系列二氨铂（Ⅱ）类配合物．１３ＣＮＭＲ（２０ＭＨｚ）研究结果表明该类配体均以Ｎ、Ｏ与铂配位，配位方式不随合成时ｐＨ值的改变而改变，在弱酸条件下，配合物处于交换平衡状态．平衡常数由不同ｐＨ下未配位羧基碳的化学位移计算而得．     

二安替比林—（邻—乙氧基）苯基甲烷褪色光度法测定微量铜的研究

合成了新试剂二安替比林－（邻－乙氧基）苯基甲烷（ＤＡｏＥＭ），根据Ｃｕ＾２＋对Ｈ３ＰＯ４－Ｍｎ（Ⅱ）－Ｃｒ（Ⅵ）－ＤＡｏＥＭ显色体系的干扰褪色作用，建立了一个测定微量铜的新方法，其检出限为４×１０＾－６ｇ／Ｌ，铜离子含量在２０－１６０μｇ／Ｌ范围内与１ｇ（Ａ０／Ａ）成良好线性关系，体系稳定性和选择性良好，用于铅样中痕量铜的测定，结果满意。     

元素在探针表面上的原子化机理研究

探针原子人经法是一种新技术，本文系统地总结了用探针原子化法研究Ａｕ（１Ｂ），Ｓｒ（ⅡＡ），Ｃｄ（ⅡＢ），Ａｌ（ⅢＡ），Ｌａ，Ｓｍ，Ｆｕ（ⅢＢ），Ｇｅ，Ｓｎ，Ｐｂ（ⅣＡ），Ｓｂ，Ｂｉ（ⅤＡ），Ｖ（ⅤＢ），Ｃｒ，Ｍｏ（ⅥＢ），Ｍｎ（ⅦＢ），Ｆｅ，Ｃｏ，Ｎｉ，Ｐｔ（Ⅷ）等２０个元素的原子化机理了起源于卤化物分解的元素有Ａｕ与Ｐｔ，起源于氧化物分解的元素有Ｃｄ，Ａｌ，Ｌａ，Ｓｍ，Ｅｕ，Ｇｅ，Ｍｎ与Ｆｅ。     

叶绿素a锰（Ⅲ）和叶绿素a锰（Ⅱ）的合成和光谱

叶绿素ａ锰（Ⅲ）（Ｍｎ（Ⅲ）－Ｃｈｌ－ａ）由脱镁叶绿素（Ｐｈｅｏ－ａ）和醋酸锰（Ⅱ）合成而得，用反相高效液相色谱法分离纯化，叶绿素ａ锰（Ⅱ）（Ｍｎ（Ⅱ）－Ｃｈｌ－ａ）用Ｎａ２Ｓ２Ｏ４还原时绿素ａ锰（Ⅲ）获得，研究了它们的元素分析（ＥＡ），紫外可见吸附光谱（ＵＶ－Ｖｉｓ）和傅里叶红外吸收光谱（ＦＴ－ＩＲ）证明了此二种配合物的合成，并给出了（Ｍｎ（Ⅲ）－Ｃｈｌ－ａ）与（Ｍｎ（Ⅱ）－Ｃｈｌ－ａ）的组成分     

等离子点时钴－HSA金属中心的结构

用紫外光谱研究了等离子点时１：１Ｃｏ（Ⅱ）－ＨＳＡ配合物金属中心的结构，结果表明：该配合物的中心钴在低浓度时以Ｃｏ（Ⅱ）和Ｃｏ（Ⅲ）两种氧化态共存，高浓度时（＞３．０×１０－４ｍｏｌ·Ｌ－１）仅以Ｃｏ（Ⅲ）氧化态存在；且金属中心随着浓度增大发生＂八面体→四方锥→四方平面＂的构型变化。与生理ｐＨ时金属中心的结构存在显著差别，可用ｐＨ效应加以解释。     

光谱法研究铜锌超氧歧化酶与组氨酸钴(Ⅱ)的相互作用 Ⅱ.外加组氨酸钴(Ⅱ)及磷酸盐的影响

采用ＶＩＳ和 ＩＣＰ及酶活性测定等方法,研究铜锌超氧歧化酶（Ｃｕ２Ｚｎ２ＳＯＤ）与组氨酸钴（Ⅱ）［Ｃｏ（Ｈｉｓ）ｎ］ 的直接相互作用及外加组氨酸钴（Ⅱ）、磷酸盐对此类相互作用的影响。结果发现,水溶液中原酶活性中心的Ｃｕ（Ⅱ）和Ｚｎ（Ⅱ）离子可被外加的组氨酸钴（Ⅱ）部分诱导、交换出来,而Ｃｏ（Ｈｉｓ）ｎ 中的Ｃｏ（Ⅱ）进入酶的活性中心,形成“Ｃｏ－ＳＯＤ”酶衍生物各组分,并相应影响了酶的催化活性。与此同时,外加组氨酸钴（Ⅱ）及磷酸盐对此类相互作用有着重要的影响     

Complexation of insecticide chlorantraniliprole with human serum albumin: Biophysical aspects

Chlorantraniliprole is a novel insecticide belonging to the diamide class of selective ryanodine receptor agonists. A biophysical study on the binding interaction of a novel diamide insecticide, chlorantraniliprole, with staple in vivo transporter, human serum albumin (HSA) has been investigated utilizing a combination of steady-state and time-resolved fluorescence, circular dichroism (CD), and molecular modeling methods. The interaction of chlorantraniliprole with HSA gives rise to fluorescence quenching through static mechanism, this corroborates the fluorescence lifetime outcomes that the ground state complex formation and the predominant forces in the HSA-chlorantraniliprole conjugate are van der Waals forces and hydrogen bonds, as derived from thermodynamic analysis. The definite binding site of chlorantraniliprole in HSA has been identified from the denaturation of protein, competitive ligand binding, and molecular modeling, subdomain IIIA (Sudlow's site II) was designated to possess high-affinity binding site for chlorantraniliprole. Moreover, using synchronous fluorescence, CD, and three-dimensional fluorescence we testified some degree of HSA structure unfolding upon chlorantraniliprole binding.     

Determining the binding affinity and binding site of bensulfuron-methyl to human serum albumin by quenching of the intrinsic tryptophan fluorescence

Bensulfuron-methyl (BM) is a highly active sulfonylurea herbicide for use on paddy rice. Steady state fluorescence, UV/vis absorption, circular dichroism (CD), time-resolved fluorescence and molecular modeling methods have been exploited to determine the binding affinity and binding site of BM to human serum albumin (HSA). From the synchronous fluorescence, UV/vis, CD and three-dimensional fluorescence spectra, it was evident that the interaction between BM and HSA induced a conformational change in the protein. Steady state and time-resolved fluorescence data illustrates that the fluorescence quenching of HSA by BM was the formation of HSA-BM complex at 1:1 molar ratio. Site marker competitive experiments demonstrated that the binding of BM to HSA primarily took place in subdomain IIIA (Sudlow’s site II), this corroborates the hydrophobic probe ANS displacement and molecular modeling results. Thermodynamic analysis displays hydrophobic, electrostatic and hydrogen bonds interactions are the major acting forces in stabilizing the HSA-BM complex.     

DNA Binding and Photocleavage Study of Cationic Metalloporphyrins by Spectral Methods

The DNA binding and photocleavage specificities of the Zn(II), Cu(II), Co(III), Mn(III) complexes of 5,10,15-tris(1-methylpyridinium-4-yl)-20-(4-propionoxyphenyl)porphyrin have been studied by using a combination of absorption, fluorescence titration, surface-enhanced Raman spectroscopy (SERS), induced circular dichroism (ICD) spectroscopy, thermal DNA denaturation as well as gel electrophoresis experiment. It is found that Cu(II) porphyrin has comparable binding ability with the free base porphyrin while the axial-coordinated Zn(II), Co(III), and Mn(III) porphyrins have lower K_b because of the molecular steric hindrance. However, those metalloporphyrins with lower K_b have similar DNA cleavage efficiencies with the free base porphyrin. This could be best understood by the enhancement of the ¹O₂ productivity which may also result from the steric hindrance of the axial-coordinated metalloporphyrins.     

Site symmetry of Mn(II) and Co(II) in zinc phosphate glass

Optical absorption and EPR spectra of Mn(II) and Co(II) doped zinc phosphate glasses have been investigated. Crystal filed parameters and g values are determined. For Mn(II) doped glass the values are Dq=850, B=850, and g values are around 2 at room temperature (RT). For Co(II) doped glass, Dq=890, B=700, and g=4.45 and 2.06 at liquid nitrogen temperature. The optical and EPR data has been correlated.     

Hg(II) Selective Complexation by Chromoionophoric Calix[4]arene Derivative

The present article describes an exploration regarding Hg(II) selective complexation behavior of 5,11,17,23-tetrakis[(N,N-dimethylamino)methyl]-25,26,27,28-tetrahydroxycalix[4]arene (4). The binding affinity of 4 toward selected transition metal ions such as Cd(II), Co(II), Cu(II), Hg(II), Ni(II), Pb(II) and Zn(II) have been investigated by UV-visible and fluorescence spectroscopies. From the results it has been noticed that 4 confers a pronounced preference for Hg(II) in complexation phenomenon even in the presence of other metal ions. The results of Job's plot analysis reveal 1:1 host-guest complex formation between Hg(II) and 4. The FT-IR spectroscopy also supports the complexation affinity of 4 for Hg(II).     

Fluorescence spectrometric studies on the binding of puerarin to human serum albumin using warfarin, ibuprofen and digitoxin as site markers with the aid of chemometrics

The interaction of puerarin with human serum albumin (HSA) in pH 7.4 Tris-HCl buffer has been investigated by fluorescence, Fourier transform infrared (FT-IR) and circular dichroism (CD) spectroscopy. The results revealed the presence of static type of quenching mechanism in the binding of puerarin to HSA. The association constants (K_a) between puerarin and HSA were obtained according to Modified Stern-Volmer equation. The calculated thermodynamic parameters indicated that the binding of puerarin to HSA was driven mainly by hydrophobic interaction. The competitive experiments of site markers suggested that the binding site of puerarin to HSA was located in the region of subdomain IIA (sudlow site I). Further, a chemometrics approach, parallel factor analysis (PARAFAC), was applied to resolve the measured three-way synchronous fluorescence spectra data of the competitive interaction between puerarin and warfarin with HSA. The concentration information for the three reaction components, warfarin, puerarin and puerarin−HSA, in the system at equilibrium was obtained simultaneously. The PARAFAC analysis indicated that puerarin in the puerarin-HSA complex was displaced by warfarin, which confirmed the binding site of puerarin to HSA was located in site I. Moreover, the results of CD and FT-IR spectra demonstrated that the secondary structure of HSA was changed in the presence of puerarin.     

Multiple Spectroscopic,Docking and Cytotoxic Study of a Synthesized 2,2′ Bipyridin Phenyl Isopentylglycin Pt(II) Nitrate Complex: Human Serum Albumin and Breast Cancer Cell Line of MDA-MB231 as Targets

In the present study, the biological activities of a new synthesized Pt(II)-complex, 2,2′ bipyridinphenyl isopentylglycin Pt(II) nitrate was investigated via its interaction with the most important blood carrier protein of human serum albumin (HSA), using fluorescence and Far-UV circular dichroism (CD) spectroscopic techniques and also molecular docking. Moreover, cytotoxicity activity of the complex was studied against breast cancer cell line of MDA MB231 using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The Pt(II)-complex has a strong ability to quench the intrinsic fluorescence of HSA through a static quenching mechanism. According fluorescence quenching data, the binding parameters of the interaction were calculated and showed that hydrophobic interaction has an important role. The molecular docking results in coherent with fluorescence measurements illustrated that Pt(II) complex can bind to HSA at one position that located in the hydrophobic cavity of groove between drug site I and II. Also, experimental data on driving force in binding site was confirmed whereas theoretical results demonstrated Pt(II) complexinteract to HSA by hydrophobic interaction. Far-UV-CD results showed that Pt(II)-complex induced an increasing in the content of α-helical structure of the protein and stabilized it. Also, MTT assay represented growth inhibitory effect of the complex toward the breast cancer cell line.     

An alternate mode of binding of the polyphenol quercetin with serum albumins when complexed with Cu(II)

Polyphenols find wide use as antioxidants, cancer chemopreventive agents and metal chelators. The latter activity has proved interesting in many aspects. We have probed the binding characteristics of the polyphenol quercetin–Cu(II) complex with human serum albumin (HSA) and bovine serum albumin (BSA). Fluorescence studies reveal that the quercetin–Cu(II) complex can quench the fluorescence of the serum albumins. The binding constant (K_b) values are of the order of 10⁵ M^?1 which increased with rise in temperature in case of HSA and BSA interacting with the quercetin–Cu(II) complex. Displacement studies reveal that both the ligands bind to site 1 (subdomain IIA) of the serum albumins. However, thermodynamic parameters calculated from temperature dependent studies indicated that the mode of interaction of the complexes with the proteins differs. Both ΔH° and ΔS° were positive for the interaction of the quercetin–Cu(II) complex with both proteins but the value of ΔH° was negative in case of the interaction of quercetin with the proteins. This implies that after chelation with metal ions, the polyphenol alters its mode of interaction which could have varying implications on its other physicochemical activities.     

Calix Receptor Edifice; Scrupulous Turn Off Fluorescent Sensor for Fe(III), Co(II) and Cu(II)

Novel Supramolecular fluorescence receptor derived from calix-system i.e. calix[4]resorcinarene bearing dansylchloride as fluorophore was designed and synthesized. The compound was purified by column chromatography and characterized by elemental analysis, NMR and Mass spectroscopy. Tetradansylated calix[4] resorcinarene (TDCR) shows a boat conformation with C₂v symmetry. The complexation behaviour of metal cations [Ag(I), Cd(II), Co(II), Fe(III), Hg(II), Cu(II), Pb(II), Zn(II), U(VI) (1?×?10^-4?M)] with tetra dansylated calix[4]resorcinarene (1?×?10^-6?M) was studied by spectophotometry and spectrofluorometry. Red shift in the absorption spectra led us to conclude that there is strong complexation Fe(III), Co(II) and Cu(II) with TDCR. These metal cations also produce quenching with red shifts in the emission spectra. The maximum quenching in emission intensity was observed in the case of Fe(III) and its binding constant was also found to be significantly higher than that of Co(II) and Cu(II). Quantum yield of metal complexes of Fe(III) was found to be lower in comparison with Co(II) and Cu(II) complexes. Stern Volmer analysis indicates that the mechanism of fluorescence quenching is either purely dynamic, or purely static.     

Structural, vibrational, thermal and magnetic investigation of novel Co(II), Cu(II), Zn(II) and Hg(II) crystalline metal complexes with 2-amino-5-benzylmercapto-1,3,4-thiadiazole: a low weight model of protonated copolymer resin

The 2-amino-5-benzylmercapto-1,3,4-thiadiazole (C₉H₉N₃S₂) is a low weight model of a protonated copolymer resin used as a metal uptake agent. New monomeric crystalline metal complexes of C₉H₉N₃S₂ with Co(II), Cu(II), Zn(II) and Hg(II) were synthesized and investigated in order to facilitate the interpretation of the metal/resin binding mode. These materials have been studied by single crystal X-ray Diffraction and FTIR Spectroscopy at room temperature. Crystal data for these triclinic phases are reported. All frameworks consist of discrete monomeric units that provide crystalline stability through a network of hydrogen bond interactions. The Co(II), Zn(II) and Hg(II) ions are surrounded by a tetrahedral arrangement of two thioether monodentate ligands (each one coordinating by a N(1)_thiadiazole atom) and two chlorine atoms. The Cu(II) ion is coordinated by four thioether monodentate ligands (each one coordinating by a N(1)_thiadiazole atom) and one chlorine atom as nearest neighbor in a distorted square pyramidal polyhedron. The spectroscopic data are consistent with the structural model. FTIR spectra evidence changes in the H-bonds in the crystal packing when coordination with these divalent ions is present. Magnetic susceptibility at room temperature for Cu(II) and Co(II) complexes, EPR spectrum at room temperature for Cu(II) complex and thermal properties for all complexes were measured. These results could be useful for the interpretation of the binding mode of M(II)/1,3,4-thiadiazole-2-amino-5-thiol in protonated copolymer resin which are used as uptake agents of toxic metallic ions.