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Using artificial electron donors and acceptors, it is shown here that the major HCO3? effect in the Hill reaction is after the “primary” electron acceptor (Q) of Photosystem II and before the site of action of 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (at the plastoquinone pool). Chloroplasts in the presence of both 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea, which blocks electron flow from the reduced primary acceptor Q? to the plastoquinone pool, and silicomolybdate, which accepts electrons from Q?, show no significant bicarbonate stimulation of electron flow. However, a 6–7-fold stimulation is clearly observed when oxidized diaminodurene, as an electron acceptor, and dibromothymoquinone, as an inhibitor of electron flow beyond the plastoquinone pool, are used. In the same chloroplast preparation no measurable effect of bicarbonate is observed in a Photosystem I reaction as monitored by electron flow from reduced diaminodurene to methyl viologen in the presence of 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea. The insensitivity of the bicarbonate effect to uncouplers of photophosphorylation and the dependence of this effect on the presence of a weak acid anion and on external pH are also reported. 相似文献
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Spinach chloroplasts have been prepared nonaqueously using non-polar solvents (n-hexane, CCl4, n-heptane) and the β-carotene content extracted in a controlled manner. This procedure is reproducible and does not result in large structural or spectral changes of the chloroplasts. The organisation of the chlorophyll-proteins is unaltered, as fragmentation with digitonin results in the appearance of the same fractions as found previously for aqueously-prepared chloroplasts, including the pink zone containing cytochromes f and b6 in the ratio 1:2. The chloroplasts possess both Photosystem I activity (P-700 photo-bleaching, and NADP+ photoreduction) and Photosystem II activity (parabenzoquinone reduction with Mn2+ as electron donor, and chlorophyll fluorescence induction). Use of moderate intensity red illumination has allowed a study of the role of β-carotene in photochemistry separate from its roles in energy transfer and photoprotection.Removal of the fraction of β-carotene closely associated with the Photo-system I reaction centre caused the rate of NADP+ photoreduction to fall to a low, but significantly non-zero level. Thus, in the complete absence of β-carotene, photochemistry can still be observed, however the specific association of β-carotene with the reaction centre is required for maximal rates. We propose that β-carotene bound at the reaction centre decreases the rate of transfer of excitation energy away from the reaction centre, and increases the rate of photochemistry. It is possible that this occurs via formation of an exciplex between ground state β-carotene and chlorophyll in the first excited state. 相似文献
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The effect of sodium cholate and other detergents (Triton X-100, sodium dodecyl sulphate, octyl glucoside, myristyltrimethylammonium bromide) on the reduction of plastoquinones (PQ) with a different length of the side-chain by spinach ferredoxin:NADP(+) oxidoreductase (FNR) in the presence of NADPH has been studied. Both NADPH oxidation and oxygen uptake due to plastosemiquinone autoxidation were highly stimulated only in the presence of sodium cholate among the used detergents. Sodium cholate at the concentration of 20 mM was found to be the most effective on both PQ-4 and PQ-9-mediated oxygen uptake. The FNR-dependent reduction of plastoquinones incorporated into sodium cholate micelles was stimulated by spinach ferredoxin but inhibited by Mg(2+) ions. It was concluded that the structure of sodium cholate micelles facilitates contact of plastoquinone molecules with the enzyme and creates favourable conditions for the reaction similar to those found in thylakoid membranes for PQ-9 reduction. The obtained results were discussed in terms of the function of FNR as a ferredoxin:plastoquinone reductase both in cyclic electron transport and chlororespiration. 相似文献
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Tomáš Mráček Eliška HolzerováZdeněk Drahota Nikola KovářováMarek Vrbacký Pavel JešinaJosef Houštěk 《BBA》2014
Overproduction of reactive oxygen species (ROS) has been implicated in a range of pathologies. Mitochondrial flavin dehydrogenases glycerol-3-phosphate dehydrogenase (mGPDH) and succinate dehydrogenase (SDH) represent important ROS source, but the mechanism of electron leak is still poorly understood. To investigate the ROS production by the isolated dehydrogenases, we used brown adipose tissue mitochondria solubilized by digitonin as a model. Enzyme activity measurements and hydrogen peroxide production studies by Amplex Red fluorescence, and luminol luminescence in combination with oxygraphy revealed flavin as the most likely source of electron leak in SDH under in vivo conditions, while we propose coenzyme Q as the site of ROS production in the case of mGPDH. Distinct mechanism of ROS production by the two dehydrogenases is also apparent from induction of ROS generation by ferricyanide which is unique for mGPDH. Furthermore, using native electrophoretic systems, we demonstrated that mGPDH associates into homooligomers as well as high molecular weight supercomplexes, which represent native forms of mGPDH in the membrane. By this approach, we also directly demonstrated that isolated mGPDH itself as well as its supramolecular assemblies are all capable of ROS production. 相似文献
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Stress-induced degradation of D1 protein and its photoprotection by DCPIP in isolated thylakoid membranes of barley leaf 总被引:1,自引:0,他引:1
Effects of various stress treatments such as NaCl, hydrogen peroxide, hydroxyl free radical, and high irradiance (HI, 1 000
μmol m−2 s−1) on the photosystem (PS) 2 mediated electron transport rate and the degradation of D1 protein in the thylakoid membranes
of barley were studied. The applied stresses caused significant reduction in the PS 2-mediated electron transport and a degradation
of D1 protein that was highest during the HI-treatment. Presence of 2,6-dichlorophenol indophenol (DCPIP), which is an artificial
electron acceptor from water, significantly minimizes the HI-induced deleterious effect on the PS 2-mediated electron transport
rate, disarrangement of PS machinery, and degradation of the D1 protein. HI in the absence of an acceptor resulted in production
of reactive oxygen species due to electron transfer to oxygen. 相似文献
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Melanin synthesized from mushroom tyrosinase and 3,4-dihydroxyphenylalanine has been shown to oxidize NADH and NADPH, reduce ferricyanide, oxidized forms of cytochrome c and dichlorophenolindophenol, and catalyze the coupled oxidation of NADH and reduction of ferricyanide. Kinetic studies involving the determination of initial velocity at various concentrations of substrates and product inhibition measurements have been carried out on the NADH-ferricyanide-melanin reaction. The results are consistent with a ping-pong mechanism in which one product is formed prior to the reaction of melanin with the second substrate involving the reversible oxidation and reduction of melanin during the reaction. It may be concluded that melanin is capable of acting as an electron transfer agent in several reduction-oxidation systems. 相似文献
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