Role of carbonyl cyanide m-chlorophenylhydrazone in enhancing photobiological hydrogen production by marine green alga Platymonas subcordiformis

We demonstrated that a significant volume of H(2) gas could be photobiologically produced by a marine green alga Platymonas subcordiformis when an uncoupler of photophosphorylation, carbonyl cyanide m-chlorophenylhydrazone (CCCP), was added after 32 h of anaerobic dark incubation, whereas a negligible volume of H(2) gas was produced without CCCP. The role of CCCP in enhancing photobiological H(2) production was delineated. CCCP as an ADRY agent (agent accelerating the deactivation reactions of water-splitting enzyme system Y) rapidly inhibited the photosystem II (PSII) activity of P. subcordiformis cells, resulting in a markedly decline in the coupled oxygen evolution. The mitochondrial oxidative respiration was only slightly inactivated by CCCP, which depleted O(2) in the light. As a result, anaerobiosis during the stage of photobiological H(2) evolution was established, preventing severe O(2) inactivation of the reversible hydrogenase in P. subcordiformis. The uncoupling effect of CCCP accelerates electron transfer from water due to a disruption of the proton motive force and release of DeltapH across the thylakoid membrane and thus enhances the accessibility of electron and H(+) to hydrogenase. The electrons for hydrogen photoevolution are mainly from the photolysis of water (90%). Upon the addition of CCCP, Chl a/b ratio increased, which implies a decrease in the light-harvesting PSII antennae or an increase in PSII/PSI ratio, possibly resulting in higher efficiency of utilization of light energy. The enhancement of H(2) evolution by the addition of CCCP is mostly due to the combination of the above three mechanisms. However, the disruption of the proton gradient across the thylakoid membrane may prevent a sustained photobiological H(2) evolution due to a shortfall of ATP generation essential for the maintenance and repair functions of the cells.     

Effect of some environmental factors on cyanophage AS-1 development in Anacystis nidulans

The development cycle of the cyanophage AS-1 was studied in the host blue-green alga, Anacystis nidulans, under conditions that impair photosynthesis and under various light/dark regimes. Under standard conditions of incubation the 16-h development cycle consisted of a 5-h eclipse period and an 8-h latent period. Burst size was decreased by dark incubation to 2% of that observed in the light. An inhibitor of photosystem II, 3-(3,4-dichlorophenyl)-1,1-dimethyl urea (DCMU), reduced the burst size to 27% of that of the uninhibited control, whereas cyanophage production was completely abolished by carbonyl-cyanide m-chlorophenyl hydrazone (CCCP), an inhibitor of photosynthetic electron transport. Dark incubation of infected cells decreased the latent period by 1–2 h and the eclipse period by 1 h, once the cultures were illuminated. This suggests that adsorption took place in the dark. Intracellular growth curves indicated that light is necessary for viral development. Infected cells must be illuminated at least 13 h to produce a complete burst at the same rate as the continuously illuminated control. Low light intensities retarded the development cycle, and at lowest light intensities no phage yield was obtained. AS-1 is highly dependent on host cell photophosphorylation for its development.List of Abbreviations CCCP Carbonyl-cyanide m-chlorophenyl hydrazone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethyl urea - m.o.i. multiplicity of infection - O.D. optical density - PFU plaque-forming unit Dedicated to Prof. Roger Y. Stanier on the occasion of his 60th birthday     

Proton motive force is not obligatory for growth of Escherichia coli.

When 50 microM carbonyl cyanide-m-chlorophenyl hydrazone (CCCP), a protonophore, was added to growth medium containing glucose at pH 7.5, Escherichia coli TK1001 (trkD1 kdpABC5) started exponential growth after 30 min; the generation time was 70 min at 37 degrees C. Strain AS1 (acrA), another strain derived from E. coli K-12, also grew in the presence of 50 microM CCCP under the same conditions, except that the lag period was ca. 3 h. When this strain was grown in the presence of 50 microM CCCP and then transferred to fresh medium containing 50 microM CCCP, cells grew without any lag. Neither a membrane potential nor a pH gradient was detected in strain AS1 cells growing in the presence of CCCP. When either succinate or lactate was substituted for glucose, these strains did not grow in the presence of 50 microM CCCP. Thus, it is suggested that E. coli can grow in the absence of a proton motive force when glucose is used as an energy source at pH 7.5.     

In vitro assay and light regulation of nitrate reductase in red alga Gracilaria chilensis

Nitrate reductase (NR) is the first enzyme in the nitrogen assimilation pathway. The in vitro NR activity of Gracilaria chilensis was assayed under different conditions to reveal its stability and biochemical characteristics, and an optimized in vitro assay is described. Maximal NR activities were observed at pH 8.0 and 15 degrees C. The apparent Km value for NADH was 8 microM and for nitrate 680 microM. Crude extracts of G. chilensis stored at 4 degrees C showed a 50% decrease of NR activity after 24 h. The highest NR activity value (253.20+/-2.60 x 10(-3) U g(-1)) was obtained when 100% von Stosch medium (500 microM NO3-) was added before extraction of apical parts. Algae under light:dark cycles of 12:12h exhibited circadian fluctuation of NR activity and photosynthesis with more than 2 times higher levels in the light phase. No evidence of endogenous diel rhythm controlling NR activity or photosynthesis was observed. Light pulses lasting 10 or 60 min during the darkness increased the NR activity by 30% and 45%, respectively. The results indicate that NR and photosynthesis are regulated mainly by light and not by a biological clock.     

Light-promoted diffusional amino acid efflux from Commelina leaf disks

The release (=the measured loss) of amino acids was studied in Commelina benghalensis leaf disks. The release is assumed to be the result of influx and efflux, therefore, both movements were investigated.The uptake of ¹⁴C-labeled valine exhibited a biphasic isotherm. The uptake was pH-dependent, especially at low substrate concentrations (pH optimum 4.8). Signals for amino acid/proton co-transport were observed: stimulation of the uptake by fusicoccin (FC), inhibition by diethylstilbestrol (DES) or by high K⁺ concentrations. In the light, the ATP level of the disks was maintained during the uptake period (2 h), in darkness the ATP content decreased from 87 to 24 nmol g^–1 fr. wt. However, light-promoted uptake, which is explained in the proton pump concept by an intensified proton extrusion as the result of high ATP production, was lacking.The release of amino acids was increased by washing with p-chloromercuriphenyl sulphonic acid (PCMBS), nystatin, 3(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), or KCN. The release (Q₁₀ about 1.5) was independent of the external pH and was linearly related to the intracellular amino acid concentration. Light enhanced the rate of release to the same extent at all intracellular concentrations. The present results suggest that the release is balanced by a, at least partially, proton-driven influx and a diffusional ligh-promoted efflux. A provisional model shows how the diffusional effulx can be indirectly controlled by a counter-flow fueled by the metabolism.Abbreviations PCMBS p-chloromercuriphenylsulphonic acid - CCCP carbonyl cyanide m-chlorophenyl hydrazone - DES diethylstibestrol - DCMU 3 (3,4-dichlorophenyl)-1, 1-dimethyl urea - TRIS 2-amino-2-(hydromethyl)propane-1,3 diol - MES 2-(N¹-morpholino) ethane sulphonic acid monohydrate - FC fusicoccin     

Developmental changes of blood group A-active glycosphingolipids with type 1 and type 2 chains in rat small intestine

Blood group A-active glycosphingolipids of the small intestine, A-6 and A-12, which have been characterized previously in the adult rat [Breimer ME, Hansson GC, Karlsson K-A, Leffler H (1982) J Biol Chem 257:906–12], were found to appear during postnatal development, using immunostaining on thin layer chromatograms with two monoclonal anti-A antibodies, A005 and A581. In this system, A005 was found to be specific for the A determinant based on the type 2 chain, while A581 reacted mainly with the A determinant based on the type 1 chain and only weakly with the A determinant based on the type 2 chain. A-6 Type 1 was detected first at 18 days after birth. Its concentration increased markedly during the fourth week. A-6 Type 2 was detected, at a very low level, in neonates. Its concentration increased between days 15 and 20 and then decreased almost to the neonate level by 28 days. Dodecaglycosylceramide A-12 followed the same pattern of reactivity as A-6 type 1 with A581, and remained strongly reactive with A005 after 20 days. Linear A-6 and branched A-12 appeared simultaneously. Antibodies directed against blood group H determinants based on the type 1 or type 2 chains did not detect any H structure which might have appeared as a precursor of either A-6 or A-12 at the early stages of postnatal development.Abbreviations A-6, A-12, H-5, H-10 etc the glycolipids are abbreviated by giving blood group activity, and number of sugars (see also Fig. 1) - G_M3 G_M3-ganglioside, H³NeuAc-LcCer - PBS phosphate-buffered saline     

Proton co-transport of sugars in phloem loading

Loading of ¹⁴C-labelled sugars from the hollow petiole of Ricinus communis L. was stimulated by potassium and by low pH in that both the ¹⁴C-activity and the sugar concentration of phloem sap collected from a nearby incision increased. A pH drop was observed in the solution perfusing a hollow petiole. This pH drop was greater in the presence of potassium and less in the presence of sugars, while the uncoupler CCCP induced a pH rise in the perfusing solution. Sugars were detected in the perfusing solution when it was buffered at pH>9. A model is proposed for a proton co-transport of sugars from the free space driven by a linked proton efflux/potassium influx pump.     

Proton translocation in intact cells of Thiobacillus denitrificans

Proton translocation assessed by the quinacrine fluorescence technique was compared with oxygen uptake during thiosulphate oxidation by cells of Thiobacillus denitrificans. The addition of thiosulphate to cell suspensions resulted in an outwardly directed proton translocation as reflected by an increased quinacrine fluorescence. Compared to the O₂ uptake activity, the proton translocating system was much more sensitive to proton conductors, other ionophores and inhibitors of electron transport. The results indicate that (a) the proton-translocation activity (membrane energization) is enhanced in aged cell suspensions, (b) intactness of the cytoplasmic membrane is essential for establishing a protonmotive force in cells, (c) the fluorescence increase and proton translocation are reversible processes, (d) inhibitors of electron transport may also act as proton conductors by altering the integrity of the cytoplasmic membrane.Abbreviations CCCP carbonyl cyanide m-chlorophenyl-hydrazone - DBP 2,4-dibromophenol - DNP 2,4-dinitrophenol - HOQNO 2-heptyl-4-hydroxyquinoline-N-oxide - PCP pentachlorophenol - TPB tetraphenyl boron - TTFA 1-[thenoyl-(2)]-3,3,3-trifluoracetone     

Ethylene formation in Pisum sativum and Vicia faba protoplasts

Protoplasts isolated from leaves of peas (Pisum sativum L.) and of Vicia faba L. produced 1-aminocyclopropane-1-carboxylic acid (ACC) from endogenous substrate. Synthesis of ACC and conversion of ACC to ethylene was promoted by light and inhibited by 3-(3,4-dichlorophenyl)-1,1-dimethylurea and carbonyl cyanide m-chlorophenylhydrazone. Aminoethoxyvinylglycine inhibited ethylene synthesis to a minor extent when given during incubation of the protoplasts but was very effective when added both to the medium in which the protoplasts were isolated and to the incubation medium as well. Radioactivity from [U-¹⁴C]methionine was incorporated into ACC and ethylene. However, the specific radioactivity of the C-2 and C-3 atoms of ACC, from which ethylene is formed, increased much faster than the specific radioactivity of ethylene. It appears that ACC and ethylene are synthesized in different compartments of the cell and that protoplasts constitute a suitable system to study this compartmentation.Abbreviations ACC 1-Aminocyclopropane-1-carboxylic acid - AVG aminoethoxyvinylglycine - CCCP carbonyl cyanide m-chlorophenylhydrazone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea     

Proton circulation in Vibrio costicola.

The importance of proton movements was assessed in the moderate halophile Vibrio costicola. When anaerobic cells in acidic buffer (pH 6.5) were given an O2 pulse, protons were extruded regardless of the presence of Na+. At pH 8.5, however, V. costicola produced an acidic response to an O2 pulse in the absence of Na+ and an alkaline response when Na+ was present. An Na+/H+ antiport activity was confirmed at pH 8.5. All of these effects were prevented by protonophores or butanol treatment. Growth in complex medium at pH 8.5 was prevented by a high concentration (50 microM) of carbonyl cyanide m-chlorophenyl-hydrazone (CCCP) or a low concentration (5 microM) of another protonophore, 3,3',4',5-tetrachlorosalicylanilide (TCS). The relative ineffectiveness of the former protonophore was caused by the proteose peptone and tryptone ingredients of the complex medium, since 5 microM completely prevented growth in their absence. The results are explained by a primary respiratory-linked proton efflux coupled to a secondary Na+/H+ antiport operating at alkaline pH. Evidence was seen for a role of Na+ in stimulating proton influx at alkaline pH, presumably via the pH homeostasis mechanism.     

Reversibility of energy-dependent Ca2+ accumulation in mitochondria

Ca2+ accumulation in energized rat liver mitochondria has been studied after the blockage of mitochondrial permeability transition pore (MPTP) by cyclosporin A. It is shown that Ca2+ transport is coupled to the countertransport of protons: from the matrix of mitochondria in the medium in the course of Ca2+ accumulation, and, on the contrary, from the medium to mitochondrial matrix after membrane depolarization. In standard incubation medium containing K+, Cl-, oxidation substrate (glutamate) and inorganic phosphate (H2PO4(-)) the observed stoichiometry of the exchange is 1Ca2+ : 1H+. In accordance with this exchange ratio, proton, as well as cation, transport follows the same first-order kinetics, which is characterized in both cases by very close values of reaction half-times and rate constants. It is shown that reversion of Ca2+ -uniporter, sensitive to ruthenium red, is necessary for Ca2+ - efflux from the matrix ofdeenergized mitochondria when MPTP is blocked by cyclosporin A. It is also shown that Ca2+ -uniporter reversion takes place only after membrane depolarization and permeabilization by protonophore CCCP. Calcium release from mitochondria in the presence of CCCP is accompanied by proton flow into the matrix. Both calcium and proton fluxes are sensitive to Ca2+ uniporter blocker, ruthenium red, which gives the evidence of the identity of Ca2+ -efflux and influx pathways. The data obtained lead to the conclusion that calcium-proton exchange is necessary for Ca2+ -uniporter reversion and the reversibility of energy-dependent Ca2+ -uptake in mitochondria.     

Transformation of 2-aminoacetophenone to (S)-2-amino-1-phenylethanol by Arthrobacter sulfureus

A new isolate of Arthrobacter sulfureus , when incubated at 50 g resting cells (dry cell wt) l(-1) with 50 g glucose l(-1) and 1 g 2-aminoacetophenone l(-1) in 50 mm potassium buffer (pH 7, 4 ml) at 30 degrees C, produced ( S )-2-amino-1-phenylethanol (e.e. >99%) with 75% yield in 6 h.     

DCCD induced sodium uptake by Anacystis nidulans

The Na level inside cells of Anacystis nidulans is lower than in the external medium reflecting an effective Na extrusion. Na efflux is an active process and is driven by a Na⁺/H⁺-antiport system. The necessary H⁺-gradient is generated by a proton translocating ATPase in the plasmalemma. This ATPase (electrogenic proton pump) also produces the membrane potential (about -110 mV) responsible for K accumulation. N,N-dicyclohexylcarbodiimide (DCCD) inhibits the ATPase and the H⁺-gradient completely, but the membrane potential is only reduced (<-70 mV), since K efflux initiated by DCCD maintains the potential partly by diffusion potential.With DCCD, active Na efflux is inhibited thus revealing Na uptake and leading by equilibration to the membrane potential to a 5–20 fold accumulation. Na uptake depends on the DCCD concentration with an optimum at (1–2)×10^-4 M DCCD. Pretreatment with DCCD for a few minutes followed by replacement of the medium suffices to induce Na uptake.DCCD induced Na influx is about 5 times faster in light than in darkness, and the steady state is reached much earlier in light; a 5 fold increase by light was also found for Rb uptake with untreated cells. Valinomycin stimulates the influx of Rb to about the same rate in light and dark. Therefore light may unspecifically increase the permeability of the plasma-lemma probably via the ATP level. Similarly to DCCD also 3×10^-3 M N-ethylmaleimide induces Na uptake.Abbreviations Used DCCD N,N-dicyclohexylcarbodiimide - NEM N-ethylmaleimide - CCCP carbonylcyanide m-chlorophenylhydrazone - Pipes piperazine-N,N-bis(2-ethanesulfonic acid) - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea     

Analysis of chlorophyll a fluoresence changes in weak light in heat treated Amaranthus chloroplasts

After preheating of Amaranthus chloroplasts at elevated temperatures (up to 45°C), the chlorophyll a fluorescence level under low excitation light rises as compared to control (unheated) as observed earlier in other chloroplasts (Schreiber U and Armond PA (1978) Biochim Biophys Acta 502: 138–151). This elevation of heat induced fluorescence yield is quenched by addition of 0.1 mM potassium ferricyanide, suggesting that with mild heat stress the primary electron acceptor of photosystem II is more easily reduced than the unheated samples. Furthermore, the level of fluorescence attained after illumination of dithionite-treated samples is independent of preheating (up to 45°C). Thus, these experiments indicate that the heat induced rise of fluorescence level at low light can not be due to changes in the elevation in the true constant F₀ level, that must by definition, be independent of the concentration of Q_A. It is supposed that the increase in the fluorescence level by weak modulated light is either partly associated with dark reduction of Q_A due to exposure of chloroplasts to elevated temperature or due to temperature induced fluorescence rise in the so called inactive photosystem II centre where Q_A are not connected to plastoquinone pool. In the presence of dichlorophenyldimethylurea the fluorescence level triggered by weak modulated light increases at alkaline pH, both in control and heat stressed chloroplasts. This result suggests that the alkaline pH accelerates electron donation from secondary electron donor of photosystem II to Q_A both in control and heat stressed samples. Thus the increase in fluorescence level probed by weak modulated light due to preheating is not solely linked to increase in true F₀ level, but largely associated with the shift in the redox state of Q_A, the primary stable electron acceptor of photosystem II.Abbreviations ADRY Acceleration of Deactivation of Reaction of Enzyme Y - CCCP Carbonyl cyanide 4-(trifluoromethoxy)-phenylhydrazone - Chl Chlorophyll - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - FeCN potassium ferricyanide - HEPES 4-(2-hydroxy ethyl)-1-piperazine ethane sulfonic acid - LHCP Light harvesting chlorophyll protein - MES (4-morpholine ethane sulfonic acid) - PS photosystem - Q_A and Q_B first and second consecutive electron acceptors of photosystem II - TES (2-[tris(hydroxymethyl)-methylamino]-1-ethanesulfonic acid) sulfonic acid - TRICINE N-[tris(hydroxymethyl)methyl] glycine     

The significance of hydrogenase activity for the energy metabolism of green algae: anaerobiosis favours ATP synthesis in cells of Chlorella with active hydrogenase

In cells of the green alga Chlorella fusca, which contain active hydrogenase(s), the concentration of ATP, NADH and NADPH were measured during a 5 h period of anaerobiosis in the dark and upon subsequent illumination with high light intensities (770 W/m²), conditions which favour optimal hydrogen photoproduction.ATP concentrations were also determined in cells of Chlorella fusca, whose hydrogenase was inactivated prior to illumination, and in cells of Chlorella vulgaris which do not contain hydrogenase. In the dark, the ATP concentration increased slightly during anaerobiosis in cells with active hydrogenase. This increase in ATP concentration was accompanied by an increase of NADH and a decrease of NADPH content.Upon illumination, the ATP content increased in cells with an active hydrogenase, whereas the NADH content decreased. The rate of phosphorylation was twice that observed in cells without active hydrogenase.This ATP synthesis in the light was not inhibited by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) (10 mol/l) nor by carbonylcyanide-3-chlorophenyl-hydrazone (CCCP) (1 mol/l) but was diminished by 500 mol/l dibromothymoquinone (DBMIB) and 6 mol/l carbonylcyanide-3-chlorophenyl-hydrazone (CCCP).It was concluded that an active hydrogenase can support ATP production under anaerobic conditions in the dark as well as in the light. NADH might serve in vivo as electron donor for a fermentative production of hydrogen in the light.Possible mechanisms underlying ATP production under anaerobiosis and hydrogen productive conditions are discussed.Abbreviations CCCP Carbonylcyanide-3-chlorophenyl-hydrazone - DBMIB dibromothymoquinone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - FCCP carbonylcyanide-p-trifluormethoxyphenyl-hydrazone - HEPES N-2-hydroxyethylpiperazin-N-2-ethan-sulfonic acid - PSI II, photosystem I, II respectively - PQ plastoquinone     

Early production of activated oxygen species in root apoplast of wheat following copper excess

Wheat seedlings (Triticum durum Desf.) were incubated in a solution containing 100 microM CuSO(4) for increasing time ranging from 1 min to 6h. Copper rapidly accumulated into the roots, and its amount increased significantly until 360 min. During the experiment, copper did not cause any lipid peroxidation and K(+) leakage. Up to 60 min of copper treatment the superoxide (O2(*-)) production in root apoplast decreased concomitantly with increase in superoxide dismutase (SOD) activity. In contrast, after 60 min of incubation, SOD decreased and this facilitated an increase in O2(*-) production. In the presence of the SOD inhibitor diethyldithiocarbamic acid, O2(*-) production was more than two times higher and showed a biphasic increase. Very high SOD activity in the apoplast, due to the presence of three different isozymes, one Mn-SOD and two CuZn-SODs, dismutated the radical giving rise, at least in part, to an increase in hydrogen peroxide. The highest value of H(2)O(2) was detected at 15 min, when peroxidase (POD) activity reached the lowest value. Root apoplast showed the presence of at least five different isoforms of PODs, whose pattern did not change during the entire treatment.     

The regulation of the energy-dependent phosphate uptake by the blue-green alga Anacystis nidulans

Investigations of the energy-dependent accumulation of orthophosphate by the blue-green alga Anacystis nidulans have established: 1. The transport through the cell membrane is the rate-limiting step in the incorporation of phosphate.-2. This transport is facilitated by a carrier that can be activated by Ca²⁺ and Mg²⁺ and inhibited by EDTA.-3. The activation of the carrier in the light is associated with changes of the cytoplasmic Mg²⁺ content.-4. Intracellular phosphate is shown to be present in bound form.-5. The energy-dependent accumulation of orthophosphate within the cell depends strictly on the cytoplasmic pH and not on the energy conversion at the thylakoid membrane which is responsible for the energy supply. The cytoplasmic pH is different in the light, in the dark, and in the presence of the uncoupler carbonyl cyanide m-chlorophenylhydrazone (CCCP). Orthophosphate accumulation can most readily be explained in terms of a pH dependent precipitation into a complex with bivalent cations rather than by an active transport against a concentration gradient.Abbreviation CCCP Carbonyl cyanide m-chlorophenylhydrazone     

Mass spectrometric determination of O2 gas exchange during a dark-to-light transition in higher-plant cells

The exchange of O₂ and CO₂ by photoautotrophic cells of Euphorbia characias L. was measured using a mass-spectrometry technique. During a dark-tolight transition the O₂ uptake rate was little affected whereas CO₂ efflux was decreased by 40%. In order to differentiate eventual superimposed O₂-uptake processes, the kinetics of O₂ exchange resulting from brief illuminations were measured with a highly sensitive device. When the cells were exposed to a saturating light for short periods, the rate of O₂ uptake passed through a series of transients: there was first a stimulation occurring 2–3 s after the appearance of O₂ from water-splitting, followed 30 s later by an inhibition. These two transients were reduced 80% by 3-(3,4-dichlorophenyl)1, 1-dimethylurea (DCMU), indicating that they relied on the linear transport of electrons in the chloroplasts. The first transient (stimulation of an O₂ uptake) was little affected by mitochondrial inhibitors such as antimycin A and oligomycin or the uncoupler carbonylcyanide m-chlorophenylhydrazone (CCCP) but was increased in presence of KCN. When spaced flashes (2 us duration; 100-ms intervals) were used instead of continuous light, this transient was almost suppressed indicating that it was dependent on the saturation of some component of the chloroplastic chain. The second transient (inhibition of O₂ uptake) was present when spaced flashes were used instead of continuous light. It was markedly decreased by addition of CCCP and mitochondrial inhibitors (antimycin A, oligomycin, KCN) which strongly indicates that it relied on mitochondrial respiration. It is concluded from these experiments that illumination of the cells resulted in an inhibition of mitochondrial respiration, but the resulting inhibition of O₂ uptake was hidden by the appearance of an O₂-uptake process of extramitochondrial origin, presumably located in the chloroplast.Abbreviations CCCP carbonylcyanide mchlorophenylhydrazone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - Rubisco ri-bulose-1,5-bisphosphate carboxylase/oxygenase The authors thank Drs A. Vermeglio, P. Thibault and P. Gans for helpful discussions.     

No direct linkage between proton pumping and photosynthate unloading from seed coats of Phaseolus vulgaris L.

The energization of the active sucrose release from bean seed-coat halves was investigated. For this purpose, seed coat tissues adjacent to the apoplastic space were exposed to a variety of treatments and proton and photosynthate release were measured. Fusicoccin (10^–5 moll^–1) stimulated proton pump activities. Orthovanadate (2×10^–4 moll^–1) and abscisic acid (10^–5 moll^–1) diminished the proton extrusion evoked by fusicoccin. Fusicoccin inhibited sucrose release, whereas orthovanadate and abscisic acid stimulated it. Addition of 100 mmoll^–1 K⁺ had a promotory effect on photosynthate unloading, fading away with time. This extra unloading was linearly related to an enhanced proton loss. It was concluded that the photosynthate unloading apparently is not a proton/sucrose antiport and that a pump-leak system for photosynthate release is unlikely. A tentative model for photosynthate/proton symport not directly linked to proton pumping is presented as the mechanism of unloading.Abbreviations ABA abscisic acid - CCCP carbonyl cyanide m-chlorophenyl hydrazone - DTE diethioerythritol - FC fusicoccin - MES 2-(N-morpholino) ethanesulfonic acid monohydrate - NEM n-ethylmaleimide - PCMBS p-chloromercuriphenylsulfonic acid - TRIS 2-amino-2-(hydroxymethyl) propane-1,3 diol - VAN sodium orthovanadate     

The effect of carbonyl cyanide m-chlorophenylhydrazone on steroid transport in membrane vesicles of Pseudomonas testosteroni

The uncoupler carbonyl cyanide chlorophenylhydrazone (CCCP) was an effective inhibitor of steroid transport in membrane vesicles of Pseudomonas testosteroni between 10 microM and 1 microM CCCP. At these concentrations the inhibition of steroid transport was not due to an inhibition of the 3 beta and 17 beta-hydroxysteroid dehydrogenase enzyme. CCCP also affected testosterone-dependent oxygen consumption at concentrations up to 100 microM and inhibited respiration at 0.5 and 1 microM. The effect of CCCP on testosterone-dependent oxygen consumption indicated that CCCP was acting as an uncoupler. The concurrent inhibition of testosterone transport and stimulation of testosterone-dependent oxygen consumption at 10-100 microM CCCP supported the conclusion that transport and metabolism were tightly coupled processes. When membrane vesicles were pre-incubated with CCCP for 15 min, CCCP did inhibit transport and the 3 beta and 17 beta-hydroxysteroid dehydrogenase activity. However, both transport and enzyme inhibition could be prevented by the addition of NAD+ to the incubation mixture. This indicated that CCCP exhibits the properties of a sulfhydryl reagent under pre-incubated conditions.