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11.
Richard W. Hendler Barry Bunow John S. Rieske 《Journal of bioenergetics and biomembranes》1985,17(1):51-64
In coenzyme Q-cycles, it is proposed that one electron from the quinol reduces the Rieske iron sulfur center (E
m280 mV) and the remaining electron on the semiquinone reduces cytochromeb
T (E
m–60 mV). TheE
mfor the two-electron oxidation of the quinol is 60 mV and therefore the reduction of cytochromeb
T by quinol is not favorable. As the stability constant for the dismutation of the semiquinone decreases, the calculatedE
mfor the Q/QH couple is lowered to values below theE
mof cytochromeb
T. Contemporary coenzyme Q-cycles are based on the belief that the lower value for theE
mof the Q/QH couple compared to theE
mfor cytochromeb
T means that the semiquinone is a spontaneous reducing agent for theb-cytochrome. The analysis in the paper shows that this is not necessarily so and that neither binding sites nor ionization of the semiquinoneper se alters this situation. For a Q-cycle mechanism to function,ad hoc provisions must be made to drive the otherwise unfavorable reduction of cytochromeb
T by the semiquinone or for the simultaneous transfer of both electrons to cytochromeb
T and cytochromec
1 (or the iron sulfur protein). Q-cycle mechanisms with these additional provisions can explain the observation thus far accumulated. A linear path which is functionally altered by conformational changes may also explain the data. 相似文献
12.
Ana M. Mata M. Carmen Pinto Juan López-Barea 《Molecular and cellular biochemistry》1985,68(2):121-130
Summary The redox interconversion of Escherichia coli glutathione reductase has been studied both in situ, with permeabilized cells treated with different reductants, and in vivo, with intact cells incubated with compounds known to alter their intracellular redox state.The enzyme from toulene-permeabilized cells was inactivated in situ by NADPH, NADH, dithionite, dithiothreitol, or GSH. The enzyme remained, however, fully active upon incubation with the oxidized forms of such compounds. The inactivation was time-, temperature-, and concentration-dependent; a 50% inactivation was promoted by just 2 M NADPH, while 700 M NADH was required for a similar effect. The enzyme from permeabilized cells was completely protected against redox inactivation by GSSG, and to a lesser extent by dithiothreitol, GSH, and NAD(P)+. The inactive enzyme was efficiently reactivated in situ by physiological GSSG concentrations. A significant reactivation was promoted also by GSH, although at concentrations two orders of magnitude below its physiological concentrations. The glutathione reductase from intact E. coli cells was inactivated in vivo by incubation with DL-malate, DL-isocitrate, or higher L-lactate concentrations. The enzyme was protected against redox inactivation and fully reactivated by diamide in a concentration-dependent fashion. Diamide reactivation was not dependent on the synthesis of new protein, thus suggesting that the effect was really a true reactivation and not due to de novo synthesis of active enzyme. The glutathione reductase activity increased significantly after incubation of intact cells with tert-butyl or cumene hydroperoxides, suggesting that the enzyme was partially inactive within such cells. In conclusion, the above results show that both in situ and in vivo the glutathione reductase of Escherichia coli is subjected to a redox interconversion mechanism probably controlled by the intracellular NADPH and GSSG concentrations. 相似文献
13.
A Osuna G Ortega F Gamarro S Castanys M C Mascaro 《International journal for parasitology》1984,14(3):253-257
The penetration of metacyclic forms of Trypanosoma cruzi into HeLa cells after different treatments was studied. When cell development was synchronized by two different processes, maximum rates of parasitization occurred during the S phase of cell cycle (29.48 and 24.3%). However, when cells were treated with trypsin (0.1%), parasitization rates appeared to be lower than controls, reaching values similar to controls 14 h after the beginning of the treatment. Infection values remained unaltered after treatment with colcemid (0.6 μg ml?1). Cell treatment either with valinomycin (1 μg ml?1) or with actinomycin D (250 μg ml?1) caused a marked decrease in the percentage of parasitization. When cells were treated and infected in the presence of tunicamycin (100 ng ml?1), parasitization rates were increased (14.7%) compared to control cells (6%). On the other hand, no differences in parasitization rates were observed when cells were treated with cycloheximide (100 μg ml?1). Infection in a low redox medium (?100 mV) resulted in considerable increase in parasitization. 相似文献
14.
Bluelight-induced,flavin-mediated transport of redox equivalents across artificial bilayer membranes
Werner Schmidt 《The Journal of membrane biology》1984,82(2):113-122
Summary This paper continues our studies of physico-chemical properties of vesicle-bound flavins. Based on previous results, an advanced model system was designed in order to study the mechanisms underlying bluelight-induced redox transport across artificial membranes. The lumen of single-shelled vesicles was charged with cytochromec, and amphiphilic flavin (AF1 3, AF1 10) was bound to the membrane. Upon bluelight irradiation redox equivalents are translocated from exogeneous 1e
–(EDTA)-and 2e
–(BH3CN–) donors across the membrane finally reducing the trapped cytochromec both under aerobic and anaerobic conditions. The mechanisms involved are explored and evidence for the involvement of various redox states of oxygen, dihydroflavin and flavosemiquinone is presented. 相似文献
15.
棕色固氮菌中电子载体Fld直接向固氮酶铁蛋白传递电子。Fld_(ox)至Fld_R是双电子二步还原反应,极谱半波电位分别为-210、-550 mV。Fld_(ox)至Fld_(SR)的中点电位为-280 mV,Fld_(SR)至Fld_R为-500mV。铁蛋白中点电位为-256mV,加MgATP后为-390 mV。Fld_R与铁蛋白ox组成的电池电动势为244mV,电子传递可自发进行,反应的J△G~o为-23KJ/摩尔,铁蛋白被Fld_R还原的K_a=1.3×120~4,加入MgATP后△G~o为-10.6KJ/摩尔,K_a=72。因此,未加入MgATP时电子传递反应更易进行。 相似文献
16.
Vaughan Hurry Jan M. Anderson Murray R. Badger G. Dean Price 《Photosynthesis research》1996,50(2):159-169
We have examined tobacco transformed with an antisense construct against the Rieske-FeS subunit of the cytochromeb
6
f complex, containing only 15 to 20% of the wild-type level of cytochrome f. The anti-Rieske-FeS leaves had a comparable chlorophyll and Photosystem II reaction center stoichiometry and a comparable carotenoid profile to the wild-type, with differences of less than 10% on a leaf area basis. When exposed to high irradiance, the anti-Rieske-FeS leaves showed a greatly increased closure of Photosystem II and a much reduced capacity to develop non-photochemical quenching compared with wild-type. However, contrary to our expectations, the anti-Rieske-FeS leaves were not more susceptible to photoinhibition than were wild-type leaves. Further, when we regulated the irradiance so that the excitation pressure on photosystem II was equivalent in both the anti-Rieske-FeS and wild-type leaves, the anti-Rieske-FeS leaves experienced much less photoinhibition than wild-type. The evidence from the anti-Rieske-FeS tobacco suggests that rapid photoinactivation of Photosystem II in vivo only occurs when closure of Photosystem II coincides with lumen acidification. These results suggest that the model of photoinhibition in vivo occurring principally because of limitations to electron withdrawal from photosystem II does not explain photoinhibition in these transgenic tobacco leaves, and we need to re-evaluate the twinned concepts of photoinhibition and photoprotection.Abbreviations Chl
chlorophyll
- DCMU
3-(3,4-dichlophenyl)-1,-dimethylurea
- Fo and Fo
minimal fluorescence when all PS II reaction centers are open in dark- and light-acclimated leaves, respectively
- Fm and Fm
maximal fluorescence when all PS II reaction centers are closed in dark- and light-acclimated leaves, respectively
- Fv
variable fluorescence (Fm-Fo) in dark acclimated leaves
- Fv
variable fluorescence (Fm-Fo) in lightacclimated leaves
- NPQ
non-photochemical quenching of fluorescence
- PS I and PS II
Photosystem I and II
- P680
primary electron donor of the reaction center of PS II
- PFD
photosynthetic flux density
- QA
primary acceptor quinone of PS II
- qp
photochemical quenching of fluorescence
- V+A+Z
violaxanthin+antheraxanthin+zeaxanthin 相似文献
17.
18.
For maximal rates of CO2 assimilation in isolated intact spinach chloroplasts the generation of the adequate NADPH/ATP ratio is achieved either by cyclic electron flow around photosystem I or by linear electron transport to oxaloacetate, nitrite or oxygen (Mehler-reaction). The interrelationships between these poising mechanisms turn out to be strictly hierarchical. In the presence of antimycin A, an inhibitor of ferredoxin-dependent cyclic electron transport, the reduction of both, oxaloacetate and nitrite, but not that of oxygen restores CO2 fixation. When oxaloacetate and nitrite are added at low concentrations simultaneously during steady-state CO2 fixation, the reduction of nitrite is clearly preferred over the reduction of oxaloacetate, but CO2 fixation is not influenced. Nitrite reduction is not decreased upon addition of oxaloacetate, but vice versa. This is due to the regulation of NADP-malate dehydrogenase activation by electron pressure via the ferredoxin/thioredoxin system on the one hand, and by the NADPH/(NADP+NADPH) ratio (anabolic reduction charge, ARC) on the other hand. Thus the closing of the malate valve prevents drainage of reducing equivalents from the chloroplast (1) when a low ARC indicates a high demand for NADPH in the stroma and (2) when nitrite reduction reduces the electron pressure at ferredoxin. The malate valve is opened when cyclic electron transport is inhibited by antimycin A. Under these conditions the rate of malate formation is higher than in the absence of the inhibitor even in the presence of oxaloacetate, thus indicating that the regulation of the malate valve functions at various redox states of the acceptor side of Photosystem I.Abbreviations ARC
anabolic reduction charge (NADPH/(NADP+NADPH))
- Chl
chlorophyll
- DTT
dithiothreitol; Fd-ferredoxin
- NADP-MDH
NADP-malate dehydrogenase
- OAA
oxaloacetate
- PS
photosystem
- qN
non-photochemical quenching
- qP
photochemical quenching
- E
quantum efficiency of PS II
Dedicated to Prof. Dr. Hans Walter Heldt on the occasion of his 60th birthday. 相似文献
19.
Comparison of the chemical changes in the rhizosphere of the nickel hyperaccumulator Alyssum murale with the non-accumulator Raphanus sativus 总被引:2,自引:1,他引:1
Changes in pH and redox potential were studied in the rhizosphere soil of a nickel hyperaccumulator plant (Alyssum murale) and of a crop plant, radish (Raphanus sativus). Differences in rhizosphere pH and reducing activity were found between the lateral and the main roots of both species,
but the pH changes in the rhizosphere were similar in both species. Changes in pH were associated with the relative uptakes
of cations and anions; whether the concentrations of heavy metals in the growth medium did not have any effect on the rhizosphere
pH. The source of nitrogen (ammonium or nitrate) was the major factor determining the pH of the rhizosphere of both species.
The redox potential of the rhizosphere was influenced by both the N-source and the concentrations of heavy metals. When heavy
metals were not present in the growth medium, and nitrate was the N-source, the reducing capacity of A. murale roots was enhanced. However, the reducing activity of A. murale was always smaller than that of radish. Therefore, the mechanism of metal solubilization by the hyperaccumulator plant does
not involve either the reduction of pH in the rhizosphere or the release of reductants from roots. The acidification and reducing
activity of the roots of A. murale was always smaller than that of R. sativus. 相似文献
20.
The purpose of this study was to make a prognosis of the effects of extended purification of terrestrial waste water, reaching the Wadden Sea by the River Rhine and Lake IJssel, on the phosphate concentration in the western Wadden Sea.The quantities of different phosphorus fractions in intertidal and subtidal sediments of the Marsdiep tidal basin (western Dutch Wadden Sea) were measured. Different methods are applied to determine the amount of phosphorus that can be released from these sediments. The direct bioavailability is determined by inoculating sediment suspensions with a natural mixture of precultured micro-organisms from the sampling area. A second approach is the measurement of the phosphate release under different redox conditions. Sequential extraction of sediment samples with different solvents is also applied. Under the present conditions and compared to the nutrient loads from fresh water (Lake IJssel) and from the North Sea, the phosphorus stored in the sediments of the western Dutch Wadden Sea plays a minor role in the total supply to micro-algae and bacteria. The bulk of the biologically available phosphorus in the sediments originates from the metal-associated fraction. Releasable phosphate may contribute to the local annual primary production to an extent of ca 45 to ca 150 g C m–2 a–1. The total amount of phosphorus in the sediment (mainly calcite associated) is twice to 6 times the biologically available amount. 相似文献