Abbreviations: DCIP, 2,6-dichlorophenolindophenol; PMS, phenazine methosulfate; Tricine, N-tris(hydroxymethyl)methylglycine; MES, 2-(N-morpholino)ethanesulfonic acid; DCMU, (3,4-dichlorophenyl)-1,1-dimethylurea 相似文献
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1.
A cell-free preparation has been isolated from Phormidium luridum that evolves oxygen when coupled to one-electron oxidants, that is insensitive to 3-(3,4-dichlorophenyl)-1,1-dimethylurea, and that yields oxygen at a rate dependent on redox potential. In this preparation the Hill oxidant couples closer to the oxygen-producing apparatus than in any other cell-free system. Light saturation curve data for the cell-free preparation shows a stabilization, by the Hill oxidant, of intermediates in oxygen synthesis. In whole cells coupled to CO2 or to K3 Fe(CN)6 no such stabilization occurs and a 2nd order light intensity dependence of the oxygen-production rate is observed. 相似文献
2.
1. In the presence of Triton X-100, chloroplast membranes of the green alga Acetabularia mediterranea were disrupted into two subchloroplast fragments which differed in buoyant density. Each of these fractions had distinct and unique complements of polypeptides, indicating an almost complete separation of the two fragments.
2. One of the two subchloroplast fractions was enriched in chlorophyll b. It exhibited Photosystem II activity, was highly fluorescent and was composed of particles of approx. 50 Å diameter.
3. The light-harvesting chlorophyll-protein complex of the Photosystem II-active fraction had a molecular weight of 67 000 and contained two different subunits of 23 000 and 21 500. The molecular ratio of these two subunits was 2:1. 相似文献
3.
1. Incubation of chloroplasts with HgCl2 at a molar ratio of HgCl2 to chlorophyll of about unity, induced a complete inhibition of the methyl viologen Hill reaction, as well as methyl viologen photoreduction with reduced 2,6-dichlorophenolindophenol (DCIP) as electron donor. Photooxidation of cytochrome ? was similarly sensitive towards HgCl2, whereas photooxidation of P700 was resistant to the poison. Photoreduction of cytochrome ? and light-induced increase in fluorescence yield were enhanced by the HgCl2 treatment of chloroplasts. 相似文献
4.
Thylakoid membranes were prepared from the blue-green alga, Anacystis nidulans with lysozyme treatment and a short period of sonic oscillation. The thylakoid membrane preparation was highly active in the electron transport reactions such as the Hill reactions with ferricyanide and with 2,6-dichlorophenolindophenol, the Mehler reaction mediated by methyl viologen and the system 1 reaction with methyl viologen as an electron acceptor and 2,6-dichlorophenolindophenol and ascorbate as an electron donor system. The Hill reaction with ferricyanide and the system 1 reaction was stimulated by the phosphorylating conditions. The cyclic and non-cyclic phosphorylation was also active.These findings suggest that the preparation of thylakoid membranes retained the electron transport system from H2O to reaction center 1, and that the phosphorylation reaction was coupled to the Hill reaction and the system 1 reaction. 相似文献
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Tris-washed chloroplasts which have lost the ability to evolve oxygen can be reactivated by the procedure of Yamashita. T., Tsuji, J. and Tomita, G. ((1971)Plant Cell Physiol. 12, 117–126) [7] to give 100% of the rate of control chloroplasts in continuous illumination. Furthermore, in flashing light the reactivated chloroplasts exhibit oxygen-yield oscillations of period four that are characteristic of the control. Similar kinetic parameters for intermediate steps in the water-splitting process are observed for the two preparations. We conclude that the reactivation procedure restores the native oxygen evolution mechanism to Tris-washed chloroplasts.A relatively rapid and reversible (0.5 s decay) light-induced component of EPR Signal II is observed upon inhibition of O2 evolution by Tris washing (Babcock G. T. and Sauer, K. (1975) Biochim. Biophys. Acta 376, 315–328) [10]. Reactivated chloroplasts are similar to untreated chloroplasts in that this Signal II transient is not observed. Manganese, which is released by Tris treatment to the interior of the thylakoid membrane in an EPR-detectable state, is returned to an EPR-undetectable state by reactivation. The reactivation procedure does not require light to restore O2 evolution and EDTA has no effect on the extent of reactivation. These results are discussed in terms of possible mechanisms for manganese incorporation into photosynthetic membranes. 相似文献
7.
The widely assumed correspondence between fluorescence and photochemistry in photosynthetic systems has recently been challenged by observations on the triplet state of bacteriochlorophyll in reaction centres of Rhodopseudomonas spheroides. In order to check this assumption we have conducted a precise determination of the quantum efficiency of bacteriochlorophyll photooxidation in reaction centres at room temperature. We find a quantum efficiency of 1.02 ± 0.04 in contrast to a value of about 0.7 predicted from the variations in fluorescence yield. 相似文献
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Partition in an aqueous Dextran-polyethylene glycol two-phase system has been used for the separation of chloroplast membrane vesicles obtained by press treatment of a grana-enriched fraction after unstacking in a low salt buffer.
The fractions obtained were analysed with respect to chlorophyll, photochemical activities and ultrastructural characteristics. The results reveal that the material partitioning to the Dextran-rich bottom phase consisted of large membrane vesicles possessing mainly Photosystem II properties with very low contribution from Photosystem I. Measurements of the H2O to phenyl-p-benzoquinone and ascorbate-Cl2Ind to NADP+ electron transport rates indicate a ratio of around six between Photosystem II and I.
The total fractionation procedure could be completed within 2–3 h with high recovery of both the Photosystem II water-splitting activity and the Photosystem I reduction of NADP+.
These data demonstrate that press treatment of low-salt destabilized grana membranes yields a population of highly Photosystem-II enriched membrane vesicles which can be discriminated by the phase system. We suggest that such membrane vesicles originate from large regions in the native grana membrane which contain virtually only Photosystem II. 相似文献
10.
G.A. Volkov 《BBA》1973,314(1):83-92
Transient hyperpolarization of the external cytoplasmatic membrane may be observed on rapid illumination of the Nitella flexilis cell. Several important properties of that response make the latter similar to a considerable degree to the excitation response.The condition for transient hyperpolarization is the normal functioning of the electron transport chain conjugated with non-cyclic photophosphorylation.The value of the membrane potential at the moment of hyperpolarization of the external cytoplasmic membrane, is determined by the difference in the electrochemical potential of HCO3? or H+. This state of the plasmalemma supplements the two other known states: normal and depolarized (excited), when the main ions determining membrane potential are K+ and Cl?. 相似文献
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We have investigated the process of intermolecular excitation energy transfer and the relative orientation of the chlorophyll molecules in the unicellular green alga Chlamydomonas reinhardi. The principal experiments involved in vivo measurements of the fluorescence polarization as a function of the exciting-light wavelength in the presence and in the absence of 3-(3,4-dichlorophenyl)-1,1-dimethylurea. We found that as the fluorescence lifetime increases upon the addition of 3-(3,4-dichlorophenyl)-1,1-dimethylurea that the degree of fluorescence polarization decreases over the excitation region from 600 to 660 nm. This result, we argue, implies that a Förster mechanism of excitation energy transfer is involved for Photosystem II chlorophyll molecules absorbing primarily below 660 nm. We must add that our results do not exclude the possibility of a delocalized transfer process from being involved as well. Fluorescence polarization measurements using chloroplast fragments are also discussed in terms of a Förster transfer mechanism. As the excitation wavelength approaches 670 nm the fluorescence polarization is nearly constant upon the addition of 3-(3,4-dichlorophenyl)-1,1-dimethylurea.Experiments performed using either vertically or horizontally polarized exciting light show that the fluorescence polarization increases as the exciting light wavelength increases from 650 to 673 nm. This suggests the possibility that chlorophyll molecules absorbing at longer wavelengths have a higher degree of relative order. Furthermore, these studies imply that chlorophyll molecules exist in discrete groups that are characterized by different absorption maxima and by different degrees of the fluorescence polarization. In view of these results we discuss different models for the Photosystem II antenna system and energy transfer between different groups of optically distinguishable chlorophyll molecules. 相似文献
13.
The photoreactions mediated by Photosystem II at low temperatures were examined in subchloroplast particles enriched in Photosystem II to determine if the Photosystem II activity was independent of C-550 in such particle preparations. Two types of Photosystem II particle preparations were tested, one enriched in chlorophyll b and the other purified further to eliminate the chlorophyll b. The Photosystem II-mediated photoreactions at low temperature were the same in both of the Photosystem II particle preparations as they were in normal chloroplasts. C-550 acted as if it were the primary electron acceptor of Photosystem II in all of the experiments performed. 相似文献
14.
1. 1. A relaxation spectrophotometer was employed to measure the effects of trypsin treatment on electron transport in both cyclic and non-cyclic chloroplast reactions. The parameters measured were electron flow rate through P700 (flux) and the time constant for dark reduction of P700.
2. 2. In the reduction of methyl viologen by the ascorbate-2,6-dichlorophenol-indophenol (DCIP) donor couple, there was no effect of trypsin on P700 flux or on the time constant for dark reduction of P700. In the phenazine methosulfate (PMS) cyclic system, trypsin had either a slightly stimulatory or slightly inhibitory effect on the P700 flux, depending on the presence or absence of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU): either effect being marginal compared to trypsin effects on Photosystem II.With both ferricyanide and methyl viologen reduction from water, trypsin treament gave a first order decline in P700 flux: which matched the trypsin-induced decline in electron transport with the water to DCIP system, measured by dye reduction. This implies that Photosystem II is inhibited. The inhibition of Photosystem II was up to 90% with a 6–10-min trypsin treatment. This result is consistent with the concept of Photosystem I (P700) being in series with Photosystem II in the electron transfer sequence.
3. 3. Cyclic phosphorylation was severely inhibited (85%) by trypsin treatment which had a somewhat stimulatory effect on P700 flux, indicating uncoupling. Non-cyclic phosphorylation was uncoupled as well as electron flow being inhibited since the P/2e ratio decreased more rapidly as a function of trypsin incubation time than inhibition of electron flow. The two effects, uncoupling and non-cyclic electron flow inhibition, are separate actions of trypsin. It is probably that the uncoupling action of trypsin is due to attack on the coupling factor protein, known to be exposed on the outer surface of thylakoids.
4. 4. Trypsin treatment caused an increase in the rate constant, kd, for the dark H+ efflux, resulting in a decreased steady state level of proton accumulation. The increased proton efflux and the inhibition of phosphorylation are consistent with an uncoupling effect on trypsin.
5. 5. Trypsin treatment did not reduce the manganese content of chloroplasts: as reported by others, Tris washing did remove about 30% of the chloroplast manganese.
6. 6. Electron micrographs of both negatively stained and thin-sectioned preparations showed that, under these conditions, trypsin does not cause a general breakdown of chloroplast lamellae. Inhibition by trypsin must therefore result from attacks on a few specific sites.
7. 7. Both System II inhibition and uncoupling occur rapidly when trypsin treatment is carried out in dilute buffer, a condition which leads to thylakoid unstacking, but both are prevented by the presence of 0.3 M sucrose and 0.1 M KCl, a condition that helps maintain stacked thylakoids. Evidently vulnerability to trypsin requires separation of thylakoids.
8. 8. Since trypsin does not appear to disrupt thylakoids nor prevent their normal aggregation in high sucrose-salt medium and since the trypsin molecule is probably impermeable, it is probable that the site(s) of trypsin attack in System II are exposed on the outer thylakoid surface.
15.
By density gradient centrifugation of the 80000 × g supernatant of digitonintreated spinach chloroplasts two main green bands and one minor green band were obtained. The purification and properties of the particles present in the main bands, which were shown to be derived from Photosystem I and Photosystem II, have been described previously; those of the particles in the minor fraction will be described in the present paper.
After purification, these particles show Photosystem II activity but are devoid of Photosystem I activity. They have a high chlorophyll a/chlorophyll b ratio and are enriched in β-carotene and cytochrome b559. At liquid nitrogen temperature, photoreduction of C550 and photooxidation of cytochrome-b559 can be observed. At room temperature, cytochrome b559 undergoes slight photooxidation.
These properties indicate that this particle may be the reaction-center complex of Photosystem II. It is suggested that, in vivo, the Photosystem II unit is made up of a reaction-center complex and an accessory complex, the latter being found in one of the main green bands of the density gradient. 相似文献
16.
Spinach chloroplasts exposed to iodide can be washed free of the bulk of the iodide. In the presence of lactoperoxidase and H2O2, iodide can be introduced into chloroplasts in high amounts and in non diffusible forms. The resultant particles, which have been named iodochloroplasts, extrude their iodide upon stimulation by light. The form and the amount of extruded iodide bears a definite relationship to the amount of incident light. A flash of marginally effective light is additive to the next such flash even after a lapse of 10 min of darkness. These and other properties of iodochloroplasts may make them of great use in the study of intermediate reactions of photosynthesis. 相似文献
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18.
D. Siefermann-Harms 《BBA》1978,504(2):265-277
Thylakoids isolated from spinach (Spinacia oleracea L.) bind only a small fraction of neutral red in the dark whereas they accumulate large amounts of the protonated dye in their inner space under light. Light-induced neutral red uptake depends on the size of the proton gradient across the thylakoid membrane but does not follow the mechanism established for amines. Instead, the correlation between pH gradient and neutral red uptake can be predicted quantitatively assuming that protonated neutral red is accumulated mainly as dimer species.Under appropriate conditions, accumulation of protonated neutral red in the inner thylakoid space is proportional to an absorbance increase at 520 nm. This 520-nm change can be used for the continuous measurement of pH changes in thylakoids during steady-state illumination. 相似文献
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In order to determine the major site of bicarbonate action in the electron transport complex of Photosystem II, the following experimental techniques were used: electron spin resonance measurements of Signal IIvf, measurements of chlorophyll a fluorescence yield rise and decay kinetics, and delayed light emission decay. From data obtained using these experimental techniques the following conclusions were made: (1) absence of bicarbonate causes a reversible inactivation of up to 40% of Photosystem II reaction center activity; (2) there is no significant effect of bicarbonate on electron flow from the charge accumulating S state to Z; (3) there is no significant effect of bicarbonate on electron flow from Z to P-680+; (4) electron flow from Q? to the intersystem electron transport pool is inhibited by from 4- to 6-fold under bicarbonate depletion conditions. 相似文献