The electrochemistry of cytochrome c at a viologen-thiol self-assembled monolayer

At the self-assembled monolayer (SAM) of a thiol-functionalized viologen modified gold electrode, cytochrome c (cyt c) exhibits a quasi-reversible electrochemical reaction. The heterogeneous electron transfer rate constant of cyt c in 0.1 mol/L phosphate buffer solution(pH 6.96) is 0.164 cm.s(-1) at 500 mV/s. The adsorbed cyt c on the viologen SAM forms a closely packed monolayer, whose average electron transfer rate is 4.85 s(-1) in the scan range of 50 to 500 mV/s. These results suggest that the SAM of viologen-thiol is a relatively stable, ordered and well-behaved monolayer from an electrochemical standpoint and it promotes the electron transfer process of biomolecules on electrode surface well.

Electrochemical study of the interfacial characteristics of redox-active viologen thiol self-assembled monolayers

The electrochemical behavior of the electroactive self-assembled monolayers (SAMs) of thiol-functionalized viologen, CH3(CH2)(9)V2+(CH2)(8)SH, where V2+ is a viologen group, on the gold electrodes is examined by cyclic voltammetry and electrochemical a.c. impedance. A monolayer of viologen is immobilized on the gold electrode surface via the Au-S bond and the normal potentials corresponding to the two successive one-electron transfer processes of the viologen active centers are -310 mV and -652 mV (vs. Ag/AgCl) in 0.1 mol l(-1) phosphate buffer solution (pH 6.96) respectively. These results suggest that the viologen SAMs are stable and well-behaved monolayers. The experimental impedance data corresponding to different forms of viologen group have been fitted to equivalent electrical circuits, and the surface capacitances and resistances have been given. The heterogenous electron transfer rates of the first and the second redox processes are 7.57 s(-1) and 1.49 s(-1) respectively through a.c. impedance.

A study of the electrochemical characteristics of the Co(salen)-Nafion modified electrode

A Co(salen)-Nafion modified electrode was prepared by immersing a glassy carbon electrode coated with the Nafion film into the aqueous solution with saturated Co(salen), The modified electrode showed a stable electrochemical reaction of Co(salen) at about 0 V(vs, SCE), The result of XPS indicated the valence of cobalt in Co(salen) changes from +2 before to +3 after Co(salen) enters the Nafion film, It is due to forming axis coordination of cobalt with sulfonic group in Nafion film, It was found that the mode of electron transfer in Co(salen)-Nafion modified electrode was controlled by physical diffusion and electron hopping, It was also found that the modified electrode could catalyze the reduction of O-2 to H2O2. The real catalyst may be the adduct of Co-I(salen) and O-2.

The electrochemical behavior of Eastman AQ/meldola blue-coated microelectrodes

Eastman-AQ 55D was coated onto a carbon fiber microelectrode surface, and the resulting modified electrodes exhibited high stability. Substantial improvement in the stability was observed as a result of good adhesion and the strong binding of large hydrophobic cations of Eastman AQ 55D. The electrode reaction of meldola blue bound in the polymer film showed a reversible, one-electron transfer process. The effects of solution pH and influence of supporting electrolyte on the modified carbon fiber microelectrode are discussed. The diffusion coefficient of meldola blue in the AQ polymer film determined by chronoamperometry is 2.3 x 10(-18) cm(2) s(-1), and the heterogeneous rate constant of meldola blue at the AQ polymer film/electrode determined by normal pulse voltammetry is 3.97 x 10(-3) cms(-1).

Effect of structures of modifiers on electrochemistry of di-mu-oxo dimanganese 2,2'-bipyridine complex

The gold electrodes modified with 2-picolinic acid , nicotinic acid, iso-nicotinic or thiophene were prepared using membrane transfer method, The electrochemistry of di-mu-oxodimanganese 2,2'-bipyridine complex was studied in the acetic acid buffer solution at different modified gold electrodes, It was found that the modifiers which can promote the electrochemical reaction of the complex should be of at least two functional groups, One group can be bound to the electrode surface and the other can form electron transfer pathway between the modifier and the complex through sal; bridge or hydrogen bond, In addition, the mechanism of the electrochemical reaction was discussed.

INFLUENCE ON THE THIN-LAYER SPECTROELECTROCHEMISTRY - DIFFUSION WITHIN A THIN-LAYER CELL

The potential step and cyclic voltammetric experiments in the thin layer cell were studied by the digital simulation method in this work. A relationship between the time needed for exhaustive electrolysis of the electroactive species and the thickness of the thin layer cell was obtained. On the basis of this formula, the lower time limit for a kinetic plot of the following chemical reaction can be estimated. For the cyclic voltammetry, a semiempirical formula was derived for the peak-peak potential difference (Delta Ep) in terms of the sweep rate (v), thickness of the cell (d), diffusion coefficient (D) and electron transfer number (n) 59 - n Delta Ep/n Delta Ep = 0.328(RT D/nF vd(2))(1.20).

CHEMICAL-IONIZATION MASS-SPECTROMETRY OF SOME NITRO-CONTAINING BIFUNCTIONAL AROMATIC-COMPOUNDS - LOCATION OF PROTONATION SITE

It is found that the nitro substituent of some aromatic bifunctional compounds shows unusual reactivity towards protonation. In the chemical ionization mass spectra of nitrobenzoic acids and their esters and amides, and of nitrophenols and their ethers, protonations on the carboxyl, ester, amide, hydroxyl or alkoxyl groups are highly suppressed by that on the nitro group. As a result, fragmentations based on protonation on these groups unexpectedly become negligible. Ortho effects were observed for all the ortho isomers where the initial protonation on the nitro group is followed by an intramolecular proton transfer reaction, which leads to the expected 'normal' fragmentations. Protonation on the nitro substituent is much more favourable in energy than on any of the other substituents. The interaction of the two substituents through the conjugating benzene ring is found to be responsible for this 'unfair' competitive protonation. The electron-attracting nitro group strongly destabilizes the MH+ ions formed through protonation on the other substituent; although the COR (R = OH, OMe, OEt, NH2) groups are also electron-withdrawing, their effects are weaker than that of NO2; thus protonation on the latter group produces more-stable MH+ ions. On the other hand, an electron-releasing group OR (R = H, Me, Et) stabilizes the nitro-protonated species; the stronger the electron-donating effect of this group the more stable the nitro-protonated ions.

DIRECT ELECTROCHEMICAL REACTIONS OF CYTOCHROME-C AT IODIDE-MODIFIED ELECTRODES

Quasi-reversible and direct electron transfer was observed between an iodide-modified Au electrode and cytochrome c, as well as between cytochrome c in an iodide-containing solution and a bare Au electrode. The results suggest that an electrostatic intera

THEORETICAL-ANALYSIS OF NERNSTIAN PLOTS IN THE THIN-LAYER SPECTROPOTENTIOSTATIC TECHNIQUE

The Nernstian plots in a spectropotentiostatic experiment for complex electrode processes were studied theoretically. The plots are linear for an electron transfer process coupled with a preceding or succeeding chemical reaction, and the electron stoichio

ELECTROCHEMICAL AND INSITU SPECTROELECTROCHEMICAL STUDY OF (TETRAPHENYLPORPHINATO)MANGANESE (III) PERCHLORATE IN THE PRESENCE OF CHLORIDE ANIONS .1. REDUCTION PROCESSES

The mechanism of electrochemical redox reactions of (tetra-phenylporphinato) managanese(III) perchlorate, (TPP)Mn(III)ClO4, was studied In the presence of chloride anions in dichloroethane solution. It was demonstrated that Mn(II) or Mn (III) centre can be coordinated with only one chloride anion, this result makes an about 100 mV negative shift of half-wave potential of Mn (III)/Mn (II) reduction. An equilibrium constant of 2.2 x 10(4) was determined for the complexation reaction of Cl- and Mn(III) centre.

STRUCTURE AND PROPERTIES OF SEQUENTIALLY POLYMERIZED PROPYLENE-B-[ETHYLENE-CO-PROPYLENE]-B-PROPYLENE COPOLYMERS

The structure and properties of presumed block copolymers of polypropylene (PP) with ethylene-propylene random copolymers (EPR), i.e., PP-EPR and PP-EPR-PP, have been investigated by viscometry, transmission electron microscopy, dynamic mechanical analysis, differential scanning calorimetry, gel permeation chromatography, wide-angle x-ray diffraction, and other techniques testing various mechanical properties. PP-EPR and PP-EPR-PP were synthesized using delta-TiCl3-Et2AlCl as a catalyst system. The results indicate that the intrinsic viscosity of these polymers increases with each block-building step, whereas the intrinsic viscosity of those prepared by chain transfer reaction (strong chain-transfer reagent hydrogen was introduced between block-building steps during polymerization) hardly changes with the reaction time. Compared with PP / EPR blends, PP-EPR-PP block copolymers have lower PP and polyethylene crystallinity, and lower melting and crystallization temperatures of crystalline EPR. Two relaxation peaks of PP and EPR appear in the dynamic spectra of blends. They merge into a very broad relaxation peak with block sequence products of the same composition, indicating good compatibility between PP and EPR in the presence of block copolymers. Varying the PP and EPR content affects the crystallinity, density, and morphological structure of the products, which in turn affects the tensile strength and elongation at break. Because of their superior mechanical properties, sequential polymerization products containing PP-EPR and PP-EPR-PP block copolymers may have potential as compatibilizing agents for isotactic polypropylene and polyethylene blends or as potential heat-resistant thermoplastic elastomers.

CHARACTERIZATION, MORPHOLOGY AND THERMAL-PROPERTIES OF ETHYLENE PROPYLENE BLOCK COPOLYMERS

Characterization, morphology and thermal properties of commercial ethylene-propylene block copolymers have been studied by C-13 nuclear magnetic resonance (n.m.r.) spectroscopy, differential scanning calorimetry (d.s.c.), dynamic mechanical analysis (d.m.a.) and scanning electron microscopy (SEM). The results obtained show that there exists some ethylene-propylene random copolymer in the block copolymers extractable by n-heptane. The possibility of forming PP-b-PE diblock copolymer is questionable on the basis of the effects of residual propene and the chain-transfer reaction in the sequential copolymerization. A difference in the thermal properties between commercial ethylene-propylene block copolymers and PP/PE blends was noticed, which cannot be used to identify PP-b-PE diblock copolymer. The multiphase structure has been confirmed by d.m.a. and SEM, with ethylene-propylene random copolymer and polyethylene forming the domains in the matrix of polypropylene.

Isolation, characterization and electron microscopic single particle analysis of the NADH : ubiquinone oxidoreductase (complex I) from the hyperthermophilic eubacterium Aquifex aeolicus

The proton-translocating NADH:ubiquinone oxidoreductase (complex I) has been purified from Aquifex aeolicus, a hyperthermophilic eubacterium of known genome sequence. The purified detergent solubilized enzyme is highly active above 50 degreesC. The specific activity for electron transfer from NADH to decylubiquinone is 29 U/mg at 80 degreesC. The A. aeolicus complex I is completely sensitive to rotenone and 2-n-decyl-quinazoline-4-yl-amine. SDS polyacrylamide gel electrophoresis shows that it may contain up to 14 subunits. N-terminal amino acid sequencing of the bands indicates the presence of a stable subcomplex, which is composed of subunits E, F, and G. The isolated complex is highly stable and active in a temperature range from 50 to 90 degreesC, with a half-life of about 10 h at 80 degreesC. The activity shows a linear Arrhenius plot at 50-85 degreesC with an activation energy at 31.92 J/mol K. Single particle electron microscopy shows that the A. aeolicus complex I has the typical L-shape. However, visual inspection of averaged images reveals many more details in the external arm of the complex than has been observed for complex I from other sources. In addition, the angle (90degrees) between the cytoplasmic peripheral arm and the membrane intrinsic arm of the complex appears to be invariant.

新型光系统II电子传递抑制剂的抑制特性及作用位点的研究

本文由两部分组成，一部分是关于一组新型除草剂(K-15，K-23)的抑制特性及作用位点的研究;另一部分是关于碳酸氢盐对细胞色素b-559高电势的保护作用的研究。 在第一部分，我们首先研究了抑制剂K-23对Psn放氧活性、DCIP光还原和可变荧光等光合特性的影响。研究发现，K-23在低浓度时刺激放氧活性，而在相对高浓度时抑制放氧活性。但是，K-23在低浓度时却有效地抑制了可变荧光。这些数据表明了新型抑制剂的抑制反应是基于氧化还原作用而不是猝灭作用。此外，通过采用胰蛋白酶消化类囊体膜的方式初步检测了新型抑制剂的作用部位，其结果表明：虽然新型抑制剂抑制受体侧电子传递，但它的抑制部位与DCMU不同。 其次，研究了新型抑制剂对光系统II色素蛋白复合体与多肽组分的影响及抑制剂的键合蛋白。应用SDS-PAGE技术，发现新型抑制剂主要作用于光系统II的反应中心蛋白。用温和的Deriphat-PAGE分析也证实了新型抑制剂作用于核心复合物，导致核心复合物二聚体消失。 进一步用SDS-PAGE分析新型抑制剂对Psn多肽组分的影响，发现新型抑制剂主要影响D．、D2、CP43和CP47。用荧光发射的方法确定了K-15键合在D2蛋白上。 最后，结合荧光动力学和HPLC方法，分别从定性和定量的角度，以核心复合物以及抑制剂存在下从BBY中分离的核心复合物为研究对象，详细研究了抑制剂对QA的取代作用。研究发现，在无去垢剂或低浓度去垢剂存在情况下，由于不能创造出适合于QA存在的疏水环境，我们没有得到QA被K-15取代的实验证据。而在抑制剂K-15存在下，用2.2% HTG从BBY分离的核心复合物的实验中，检测不到正的可变荧光Fv，而是得到了降低的FM，这个结果表明QA已被抑制剂在它的作用位点处所取代。 在第二部分，研究了pH5.0—7.0范围内碳酸氢盐对Cyt b-559氧化还原状态转变的影响。首先研究了pH5.0～7.0条件下碳酸氢盐对PSII Cyt b-559还原减氧化差异吸收光谱的影响，发现铁氰化钾还原的PSII Cyt b-559 HP的含量随介质pH值的降低而减少。然而，碳酸氢盐的加入阻止了由于介质pH降低而引起的Cyt b-559由高电势向低电势的转化。比如，当样品温育在pH5.0的介质中，铁氰化钾还原的Cyt b-559 HP含量占总量的25%-30%，当介质中加入2mmol/L碳酸氢盐后Cyt b-559 HP的含量上升，占总量的50%-56%。碳酸氢盐效应对氢醌还原的Cyt b-559HP含量的影响尤为显著。pH6.5时碳酸氢盐对Cyt b-559的还原氧化状态的影响不显著。其次，分别研究了PSII经Tris处理去除锰簇和三个外周蛋白及NH20H处理去除锰簇和17 kDa和23 kDa后，碳酸氢盐对Cytb一559 HP影响的pH依赖值，发现不论在pH5.0还是pH6.5的介质中碳酸氢盐效应都不存在。 综合以上实验结果，我们认为碳酸氢盐对酸化引起的Cyt b-559氧化还原状态的影响与它和锰的作用有关，但也不能排除钙离子与碳酸氢盐之间的协同作用。

PSII色素蛋白复合物的脂质体重组及反应中心的功能研究

光系统II（PSII）是存在于类囊体膜中的多亚基色素蛋白复合物，是吸收光能、催化光诱导水裂解释放氧气、质子和电子的重要机构。它在体内的基本单位是由外周天线蛋白（LHCII）与PSII核心复合物结合形成的PSII-LHCII超分子复合物，这一结构保证了LHCII吸收的能量能够快速有效的传递到PSII反应中心（RC），进行原初光化学反应。 本论文分为两部分：1、利用捕光色素蛋白复合物（LHCII）与PSII核心复合物在以DGDG、PG、SQDG三种类囊体膜脂形成的脂质体中重组的方法，研究了LHCII与PSII在脂膜上结构与功能的相互作用;2、通过研究光破坏和色素置换对PSII RC的影响，探讨了RC中不同色素的功能。主要结果如下： 1、LHCII与PSII核心复合物的蛋白脂质体研究： 将OECC（粗提核心复合物）、pdOE（纯化核心复合物）、LHCII（大量天线）制剂分别与脂质体重组并研究了其光谱性质。LHCII在与脂质体重组前表现出典型的聚集态光谱特征，重组后吸收和荧光发射峰发生明显蓝移;LHCII、OECC和pdOE三种蛋白脂质体与重组前的样品相比荧光发射强度增加;表明脂环境影响了色素蛋白复合物的聚集状态以及色素和蛋白之间的相互作用。 OECC和pdOE分别与LHCII在脂质体中重组，得到两种重组蛋白（LHCII-OECC和LHCII-pdOE）脂质体，用冰冻蚀刻电镜技术和低温荧光光谱的方法研究其结构和功能特征。LHCII和核心复合物（OECC或pdOE）结合形成PSII-LHCII重组颗粒，并在脂质体中均匀排布，阻止了LHCII晶格状结构的形成。重组蛋白脂质体的吸收光谱既有LHCII的吸收特征，又有核心复合物的特征吸收峰，但低温荧光光谱的主要发射峰是核心复合物的特征峰（684 nm-685 nm），而不是LHCII的特征峰（680 nm）;而且激发不同色素得到的荧光发射光谱基本一致，这些结果证明LHCII吸收的能量传递到了核心复合物中，在重组蛋白脂质体中不同色素蛋白复合物在结构和功能上都实现了相互偶联。 通过对OECC或pdOE与LHCII重组形成的蛋白脂质体放氧或DCPIP光还原活性的检测研究了PSII光化学活性特征。LHCII和核心复合物（OECC或pdOE）的重组蛋白脂质体与单独核心脂质体相比，在强光和弱光下光化学活性都明显提高。这从另一个角度证明了核心复合物与LHCII的功能偶联，LHCII的结合使捕光截面积增大，从而使PSII光化学活性增加。 用77K飞秒时间分辨荧光光谱分析了几种蛋白脂质体的能量传递和捕获情况。LHCII、OECC和pdOE三种蛋白脂质体的主要荧光衰减组分分别是670 ps（发射峰在680 nm）、650 ps（发射峰在690 nm）和570 ps（发射峰在685 nm）。LHCII-OECC和LHCII-pdOE脂质体的主要衰减组分分别是940 ps（发射峰在690 nm）和840 ps（发射峰在685 nm），并且出现了一个在核心复合物脂质体和LHCII脂质体中没有的40 ps组分，可以推测，这是LHCII和核心复合物之间达到平衡的时间组分，比激发态衰减的平均寿命要快得多，因此支持了PSII的trap-limited激发能衰减动力学模型。此外，可以看到天线的增大使Chl a荧光衰减的寿命延长，这一特性可能与PSII的光保护机制有关。 LHCII和OECC、LHCII和pdOE在脂质体中都成功的实现了重组，而且在结构和功能上没有明显差异;表明小天线以及23 kDa、17 kDa蛋白可能不是LHCII和核心复合物结合及能量传递所必需的。 2、受体侧光破坏和色素置换对PSII RC的影响： 在800 μmol.m-2 .s-1光照和无外加电子受体、供体的情况下，研究了PSII RC色素的受体侧光破坏情况。Chl a、Pheo和β-Car的光漂白几乎同时发生，其中在680 nm吸收的色素破坏最为显著，670 nm吸收的外周Chl比其他色素更加稳定。荧光发射强度呈先升高后降低的趋势，最大发射峰位逐渐蓝移，表明色素之间的能量传递受到破坏。用β-Car的主要吸收波长488 nm和514.5 nm激发得到两组谱带峰位和强度不同的拉曼光谱，表明在PSII RC中存在两个光谱性质不同的β-Car。光破坏过程中两组谱带的位置和带宽都没有明显变化，表明β-Car的光保护机制不涉及自身构象的变化。 将PSII RC与Cu-Chl a进行色素置换，得到了与Cu-Chl重组的RC（Cu-Chl-RC），含有0.5 Cu-Chl/2Pheo。与对照RC（按同样方式与Chl a置换的RC）和天然RC相比，Cu-Chl含量增加而Chl含量减少，660 nm的吸收增加而670 nm吸收降低，因此推测是外周Chl被替换。色素置换过程对RC的多肽组分及大部分的P680活性没有影响，CD光谱的变化也很小，表明产生CD信号的色素和蛋白环境也没有受到明显影响。但是Cu-Chl-RC的荧光发射强度明显降低，最大发射峰蓝移且峰形发生变化，Cu-Chl可能在重组RC中作为激发态的淬灭剂，阻碍了色素之间的能量传递。