A FLASH PHOTOLYSIS STUDY OF INTERMEDIATES IN PHOTOCHEMICAL REACTIONS OF CHLOROPHYLL

Abstract— The photochemical reactions of chlorophyll intermediates in vitro have been studied by the flash photolysis method. The flash excitation of pigment solutions has been shown to involve the population of a chlorophyll triplet state where the oxidation-reduction processes occur. The mechanism and kinetics of pigment triplet decay have been investigated from 20°to — 50°C and the ability of chlorophyll molecules to carry out triplet-triplet energy transfer has been established. The latter phenomenon has been used to show up the role of chlorophyll triplets in the reversible photooxidation reaction with P -quinone. There have been studied initial products of pigment photoreduction with ascorbic acid and phenylhydrazine. Experimental data of the mechanism of the initial oxidation and reduction in chlorophyll photosensitized reactions have been analysed. There have been also obtained the differential spectra of chlorophyll triplets and radicals. A calculation has been made of rate constants for a few elementary reactions.     

PHOTOCHEMICAL AND SPECTRAL PROPERTIES OF A PARTICULATE MODEL SYSTEM OF CHLOROPHYLL WITH AMPHIPHILES PREPARED FROM HISTAMINE

Abstract— In the photosynthesis model system described, chlorophyll a at an interface photosensitizes the transfer of hydrogen equivalents from a hydrocarbon phase to an aqueous phase. The hydrocarbon phase, to which chlorophyll is adsorbed, consists of polyethylene particles swollen with tetradecane. The particles are also charged positive by co-adsorption of dodecylpyridinium iodide. Furthermore, chlorophyll is ligated with the imidazole function of one of several amphiphiles derived from histamine, which may or may not contain a reducible nitroaromatic group that can serve as primary electron acceptor from photoexcited chlorophyll. The fluorescence quantum yield of chlorophyll on these particles is diminished by self-association of the pigment and by reaction with an oxidizing amphiphile; in the latter case, the quantum yield is correlated with the one-electron redox potential of the amphiphile. Fluorescence-lifetime analysis reveals that most excited singlet states of chlorophyll are quenched rather quickly, and that most of the fluorescence comes from a small fraction of chlorophyll with long lifetime. All preparations sensitize the photoreduction of 5,5′-dithiobis(2-nitrobenzoate) (DTNB) to the water-soluble thiolate by hydrazobenzene. When the amphiphile that ligates chlorophyll is not oxidizing, the quantum yield of photoreduction is unrelated to the fluorescence yield of the particles, but may be related to the degree of self-association of chlorophyll. When the amphiphile that ligates chlorophyll is oxidizing, the kinetics of photoreduction of DTNB require that the electron passes through the primary oxidant to DTNB. Quantum yields for photosensitized reducton of oxidizing amphiphiles in the absence of DTNB have a reversed correlation with redox potential, which can be rationalized in terms of the Marcus theory of electron transfer. All data are most consistently accounted for if the primary photoproduct is an ion pair of chlorophyll and primary oxidant when the latter is available, and a chlorophyll radical ion pair when it is not, both formed by electron transfer from the singlet excited state of chlorophyll.     

PHOTOREDUCTION OF PROTOCHLOROPHYLL AND ITS DERIVATIVES

Abstract —Photoreduction of protochlorophyll and a series of its derivatives (with gradual simplification of the structure) was studied in ascorbic acid-propanol-pyridine mixtures. Additions were introduced into the solutions to suppress some side processes. Conditions were found for the photoreduction of pigment on the 7,8-linkage, with the formation of corresponding chlorins. Chlorin yields depended on the nature of the metal in the centre of the pigment molecule. The yield of chlorophyll upon photoreduction of protochlorophyll was 30 per cent, and the yields of Zn-derivatives of protochphyll was about 35–80 per cent. Photochemically prepared chlorins were isolated by chromatography. Some differences were discovered between their electronic, infrared, and nuclear magnetic resonance spectra and those of natural chlorins. These differences result from chlorins with a cis arrangement of hydrogen atoms on the 7,8-linkage being selectively formed upon photoreduction, while natural chlorins have the trans arrangement. The mechanism of the photoreduction reaction is discussed.     

STRUCTURE OF PHOTOSYSTEM I AND PHOTOSYSTEM II OF PLANT CHLOROPLASTS*,†,§

Abstract— The action of Triton X-100 upon photosynthetic membranes which are devoid of carotenoids produces a small Photosystem I particle (HP700 particle) which is active in N ADP photoreduction and has a [Chl]/[P700] ratio of 30. The properties of the HP700 particle indicate that it is a reaction center complex which is served by an accessory complex containing the additional light-harvesting chlorophyll of Photosystem I as well as the cytochromes and plastoquinone. When Photosystem II particles obtained by the action of Triton X-100 are further washed with a solution 0.5 M in sucrose and 0.05 M in Tris buffer (pH 8.0), chlorophyll-containing material is released. After centrifugation, the supernatant contains about 1 per cent of the chlorophyll and contains three types of particles which can be separated by sucrose density gradient centrifugation. One of these particles, designated TSF-2b, has the same pigment composition as the original Photosystem II fragment, contains cytochrome 559, and shows Photosystem II activity (DCMU-sensitive diphenylcarbazide-supported photoreduction of 2,6-dichlorophenolindophenol). The other two particles (TSF-2a and TSF-2a′) have a [Chl a]/[Chl b] ratio of 8, have a low concentration of xanthophylls, and show a [Chl]/[Cyt 5591 ratio of about 20. Only the TSF-2a particle is active in the Photosystem II reaction described above. On the basis of these data, it is proposed that the Photosystem II unit consists of a reaction center complex which contains Chl a, Cyt 559, and an acceptor for the photochemical reaction. The reaction center complex would be served by an accessory complex which contains the light-harvesting pigments, Chl a. Chi b, and xanthophyils.     

High-performance liquid chromatography: photochemical reduction in aerobic conditions for determination of K vitamins using fluorescence detection

The development and application of a post-column detection system for K vitamins based on their photoreduction to the hydroquinone form is reported. The photoreduction yield is practically quantitative and occurs in a PTFE tubing coiled around a 6-W low-pressure mercury lamp in the presence of sodium dodecylsulfate and methanol. Factors affecting the rate of the photochemical reaction were optimised so that its contribution to the total broadening was negligible. The enhanced fluorescence and stability of the K vitamins reduced in micellar medium has permitted the use of a very sensitive photochemical detection system, which can work in aerobic conditions. Separations were carried out by reverse-phase chromatography using pure methanol as eluent. The determination of phylloquinone, menaquinone-4 and menadione in several real samples illustrates the potential of the photochemical detection system.     

CHLOROPHYLL-SENSITIZED REDUCTION OF SAFRANINE

Abstract— The kinetics of the direct photoreduction, and the chlorophyll-sensitized reduction, of safranine by ascorbic acid in aqueous pyridine was studied. In darkness following illumination, safranine was reformed from the colorless reduced derivative by a first order reaction. In light, however, the photostationary concentration of reduced safranine was proportional to the square root of the absorbed illumination, indicating a second order back reaction. The spectrum of reduced safranine, the inhibition of chlorophyll photoreduction by safranine, and the quenching of chlorophyll fluorescence by safranine were also measured. While other mechanisms of sensitization are conceivable, the simplest explanation of the results seems to be one involving the formation of the triplet state of safranine at the expense of the triplet state of chlorophyll.     

EFFECT OF WATER ON PHOTOCHEMICAL REDUCTION OF CONCENTRATED THIONINE SOLUTION BY VISIBLE LIGHT

Abstract— The photochemical reactions in concentrated thionine solution have been studied using continuous illumination. Thionine solution is photoreduced to leucothionine in an oxygen-free acidic medium. Electrochemical measurements of the photoreduction of thionine are reported. A possible reaction pathway for the energy transfer is proposed. It is found that polymeric forms of thionine and leucothionine are not involved in photoreduction. It is proposed that a complex must be formed prior to photochemical reduction. This complex species, having a lifetime of several seconds, is reduced to leucothionine, water being the reducing agent. Following this reduction, H₂O₂ is formed and the production of H₂O₂ is detected by differential pulse polarography.     

LONG-LIVED AFTERGLOW OF PHOTOSYNTHETIC PIGMENTS IN SOLUTION: PHOTOCHEMILUMINESCENCE

Abstract —Our recent research on photochemiluminescence (PCL) of pigments in solutions is reviewed. PCL was observed in the course of photooxidation by oxygen of chlorophyll a , bacteriochlorophyll, protochlorophyll, their analogs, synthetic dyes and aromatic hydrocarbons. The PCL of chlorophyll was studied in detail. It depends on oxygen concentration, intensity of exciting light, pH, nature of pigments, solvents etc. The thermochemiluminescence was observed after illumination of liquid and solid pigment solutions at low temperature (down to - 170C). The excitation spectra of PCL coincide with the pigment absorption spectra. The PCL emission spectra in most cases differ from those of pigment fluorescence. Electron acceptors, electron donors, radical inhibitors and β-carotene quench PCL. The quenching efficiency of electron acceptors is similar to their action on the chlorophyll triplet state. The quenching effect of radical inhibitors and β-carotene correlates with their activity in reaction with singlet oxygen. The effect of quenchers on the chlorophyll fluorescence, photobleaching and pigment sensitized oxygenation was studied. Analysis of experimental data allowed the assumption that chemiluminescence accompanies the decomposition of labile pigment peroxides. The accumulation of peroxides is probably due to the reaction in the complex of pigment and singlet oxygen, formed as a result of energy transfer from photoexcited (triplet) pigment molecules to oxygen. The terminal chemiluminescence emission proceeds from the singlet excited states of molecules of pigments and products of their oxidation.     

CHARACTERIZATION OF THE RED LIGHT INDUCED REDUCTION OF A PARTICLE ASSOCIATED b-TYPE CYTOCHROME FROM CORN IN THE PRESENCE OF METHYLENE BLUE*

Methylene blue transfers electrons to a membrane-associated b-type cytochrome in particulate fractions from corn coleoptiles. The K_m for methylene blue is less than 1 µM under optimal conditions. This reaction is destroyed by boiling, but not by 7 M urea. Kinetic analyses of the influence of light intensity on cytochrome reduction suggest that a first order photochemical reaction is limiting. Free EDTA may serve as an electron donor in this system at least at high methylene blue and protein concentrations. The photoactivity does not coincide either with mitochondrial or endoplasmic reticulum markers, and may be localized in plasma membrane. There is an estimated 5 times 10^-10 mol photoreducible cytochrome per g coleoptile tissue. Studies on the effect of pH on the reaction in the presence of methylene blue or thionine indicate that dye photoreduction itself is not rate-limiting. Wavelength dependence studies suggest that it is methylene blue monomer and not dimer which mediates the reaction. Although oxygen is apparently required for the reaction, neither superoxide nor excited singlet oxygen appear to be involved. The reaction mechanism is still unknown.     

镧系元素光化学 Ⅳ 铁和铈对光还原分离铕的影响

本文在水溶液中以1:1HCOOH～HCOONa做自由基清除剂,Na_2SO_4做光还原产物Eu~(2+)沉淀剂,研究了杂质铁和含量变化对光还原分离铕的影响,并用紫外光谱证明了体系中是光反应生成的Fe和Ce~(4+)对发生氧化,致使Eu~(2+)光还原生成Eu~(2+)速度减慢,铕的收率下降。     

Determination of epinephrine, norepinephrine, dopamine and L-dopa in pharmaceuticals by a photokinetic method.

A study of the photochemical reaction of the Rose Bengal (RB)-ethylenediaminetetraacetic acid system in the presence of epinephrine, norepinephrine, dopamine and L-dopa is presented. The rate of photoreduction of RB is dramatically retarded by small amounts of these catecholamines, which have an inhibitory effect on the excited state of RB, which is the activator of the process. Optimum conditions for the determination of catecholamines in the range of concentration between 5 x 10(-6) and 1 x 10(-4) mol dm-3 are described. The proposed method has been applied with excellent results to the determination of catecholamines in pharmaceuticals.     

THE PRIMARY REACTION OF PLANT PHOTOSYSTEM II

Abstract. …Research during the past five years has resulted in considerable advances in our understanding of the primary reaction (the initial light-induced charge separation) of plant Photosystem II (the reaction responsible for the oxidation of H₂O to O₂). The primary reaction appears to involve the photooxidation of a specialized chlorophyll a and the concomitant photoreduction of a specialized plastoquinone. Evidence for this formulation of the Photosystem II reaction center and a discussion of the kinetic and oxidation-reduction properties of the reactants are reviewed.     

A new volumetric method for the determination of uranium(VI)

Summary A new volumetric method for the estimation of uranium(VI) salt based on its photoreduction in the presence of diethyl ether has been developed. The recommended procedure consists of exposing uranium(VI) solution in about 1 N sulphuric acid solution with an excess of saturated aqueous ether solution in a glass vessel to the light from a Phillips repro lamp or sun light for 1 hour. The uranium(IV) salt formed is estimated by titration with a standard solution of sodium vanadate.The reduction does not proceed to uranium(III) stage under any conditions of exposure. Fluoride, phosphate, arsenate and perchlorate are not found to interfere either with the photochemical reduction or with the subsequent oxidimetric titration. But chloride and bromide ions markedly inhibit the photochemical reaction.     

Study on the Optical Spectra of 9,10-anthraquinone-2,6-disulfonic Acid Labeled Bovine Serum Albumin

Photochemical fluorimetry (PCF) is an analytical technique based on a photochemical reaction, such as photoreduction, photooxidation, photoisomerization or photocyclization.     

Investigation of the acceptor properties of chlorophyll in ether and pyridine solutions by a photoconductivity method

Results are given of an investigation of the photoreduction transformations of chlorophyll in diethyl ether and pyridine solutions through measurement of the electrical conductivity during irradiation and by spectral measurements. It is concluded from the experimental data that the red reduced form of chlorophyll a in diethyl ether containing phenylhydrazine is electrically neutral. The possibility of electron transfer between the solvent and chlorophyll molecules during irradiation is examined. A possible model for the participation of the solvent in the primary photochemical act of oxidation-reduction reactions of pigments is proposed.We are indebted to Professor Rassa (France) for pointing out this possible interpretation for the spectrum of III.     

Monitoring the Progress of a Photochemical Reaction Performed in Supercritical Fluid Carbon Dioxide Using a Continuously Stirred Reaction Cell Interfaced to On-Line SFC

A high-pressure photochemical reaction cell operated with a magnetic stir drive has been directly interfaced on-line with either SFC or HPLC. The interface consisted of an oven housing a recirculation pump directly connected to a sample injection valve. The inlet of the recirculation pump and the outlet from the sample injection valve were connected to the stirred reaction cell such that a return flow circuit was established. With this arrangement, a continuous flow of fresh supercritical fluid photochemical reaction mixture was maintained through the sample injection valve. This enabled samples of reaction mixture to be conveniently analyzed at regular intervals to monitor reaction progress using either on-line SFC or HPLC. The photoreduction of benzophenone in the presence of propan-2-ol to produce 1,1,2,2-tetraphenylethane-1,2-diol and 2-methyl-1,1-diphenylpropan-1,2-diol was studied. For this reaction, on-line SFC provided significantly better performance than on-line HPLC and was therefore used to monitor overall reaction progress and the different product yields. Quantitative results for this study demonstrate that highly efficient photochemical reactions proceeded in supercritical fluid carbon dioxide at 13 and 20 MPa.     

PHOTOELECTRON TRANSFER BETWEEN A CHARGED DERIVATIVE OF CHLOROPHYLL AND FERRICYANIDE AT THE LIPID BILAYER-WATER INTERFACE

Abstract— Flash illumination of a lipid bilayer containing a positively charge pigment: chlorophyll b cholyl hydrazone and separating two salt solutions, one of which contained ferricyanide, resulted in a photovoltage of ∼20mV, acceptor side negative. The positive charge on the pigment resulted in several novel effects. (1) The photo-emf is twice that of chlorophyll a and five times that of chlorophyll b at a given concentration. A higher surface concentration of the charged derivative is the likely cause of this effect. (2) The pheophytin of chlorophyll b cholyl hydrazone produces about one-half the photo emf of the magnesium derivative whereas pheophytin a or b produced only one-tenth the signal. This may be a reflection of the changed redox potential of the cation chlorophyll b cholyl hydrazone. (3) A voltage drop of 100 mV across the membrane, the acceptor side negatively biased, causes a 3–4-fold increase in the charge recombination rate. Biasing the acceptor side 100 mV positive has no effect. Chlorophyll a or b do not show this field effect. This asymmetric effect is explained as a movement of the more polar chlorophyll dication towards the water interface, leading to more rapid reaction with donor. Thus the kinetics of the charge reversal are a sensitive and specific probe of the polar interfacial region of the lipid bilayer-water interface.     

Photoreduction of benzophenone by dimethylaminoethyl methyacrylate in solutions

The photoreduction of benzophenone by dimethylaminoethyl methacrylate was investigated under the conditions of stationary and pulsed irradiation. With stationary irradiation of this system in benzene an intermediate photoproduct is formed, and its destruction is described by a kinetic equation of second order. By irradiation under pulsed conditions it is possible to detect the formation of the ketyl radicals of benzophenone, the yield and destruction of which depend substantially on the nature of the medium. The relationship between the destruction constant and the concentration of the aminomethacrylate and butyl methacrylate was examined and explained; the constant increases with decrease in the aminomethacrylate concentration and with increase in the butyl methacrylate concentration. The mechanism of the photoreduction of aromatic carbonyl compounds by aminomethacrylates is described.Translated from Teoreticheskaya i Éksperimental'naya Khimiya, Vol. 26, No. 1, 56–62, January–February, 1990.     

Photosensitized polymerization of methyl methacrylate with acriflavine dye

The kinetics of photopolymerization by ultraviolet-light with acriflavine as the sensitizer was studied in nonaqueous medium. The reducing agent used was alcohol. The rates of the photopolymerization were determined dilatometrically. The order of the reaction with respect to the sensitizer concentration was 0.14 while that with respect to the reducing agent concentration was 0.8 × 10^?1. These results are interpreted in terms of a kinetic scheme which involves a competitive ground-state deactivation of the dye triplet and photoreduction. A low initiator efficiency of the primary radicals (cage recombination) and bimolecular termination processes are assumed.     

分散聚合制备粒度均匀的聚甲基丙烯酸环氧丙酯微球

文中描述了粒度均匀的聚甲基丙烯酸环氧丙酯微球的制备,所采用的是分散聚合方法,系统地研究了溶剂体系、单体浓度、引发剂类型与浓度、稳定剂用量、反应温度等各种聚合参数,对聚合产物粒度及其分散性的影响．在优化反应条件的基础上,制备出了微米级（１～８μｍ）粒度均匀性基本呈现单分散的聚合物微球．