共查询到20条相似文献,搜索用时 15 毫秒
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Michael Gjedde Palmgren Marianne Sommarin Peter Leth Jørgensen 《Physiologia plantarum》1988,74(1):20-25
Plasma membrane vesicles with H+ -ATPase activity were purified from 8-day-old oat ( Avena sativa L. cv. Brighton) roots using an aqueous polymer two-phase system. Of several detergents tested, only lysophosphatidylcholine solubilized the H+ -ATPase in an active form. Solubilization of the H+ -ATPase with lysophosphatidylcholine was possible in the absence of glycerol, but the ATPase activity decreased about 4–5 times as rapidly in the absence as in the presence of 30% (w/v) glycerol. The solubilized enzyme was further stabilized by ATP and protons. Addition of 1 m M ATP to the plasma membranes halted inactivation of the H+ -ATPase. Even in the absence of polyol compounds and ATP, the enzyme was stable for hours at relatively low pH with an optimum around pH 6.7 at room temperature. The curve for the stability of soluble H+ -ATPase as a function of pH closely resembles the pH curve for the activity of the H+ -ATPase. This suggests that binding of protons to transport sites may stabilize the soluble H+ -ATPase in an enzymatically active form. 相似文献
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Marla L. Binzel 《Physiologia plantarum》1995,94(4):722-728
NaCl-induced changes in the accumulation of message for the 70 kDa subunit of the tonoplast H+ -ATPase and plasma membrane H+ -ATPase were studied in hydroponically grown plants of Lycopersicon esculentum Mill. cv. Large Cherry Red. There was increased accumulation of message for the 70 kDa (catalytic) subunit of the tonoplast H+ -ATPase in expanded leaves of tomato plants 24 h after final NaCl concentrations were attained. This was a tissue-specific response; levels of this message were not elevated in roots or in young, unexpanded leaves. The NaCl-induced accumulation of this message was transient in the expanded leaves and returned to control levels within 7 days. The temporal and spatial patterns of NaCl-induced accumulation of message for the plasma membrane H+ -ATPase differed from the patterns associated with the 70 kDa subunit of the tonoplast H+ -ATPase. NaCl-induced accumulation of the plasma membrane H+ -ATPase message occurred in both roots and expanded leaves. Initially accumulation of the plasma membrane H+ -ATPase message was greater in root tissue than in expanded leaves, but increased to higher levels in expanded leaves after 7 days. These results suggest that increased expression of the tonoplast H+ -ATPase is an early response to salinity stress and may be associated with survival mechanisms, rather than with long-term adaptive processes. 相似文献
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The activity of some phytotoxic metabolites of Pseudomonas syringae pv. syringae Van Hall strains B359 and B301 on in vivo and in vitro systems of H+-transport across the plasma membrane of maize (Zea mays L., hybrid Paolo) was investigated. In particular syringomycin, the first lipodepsinonapeptide isolated from Pss and already studied in plants and yeasts for its effects on several physiological systems, was compared with the recently described lipodepsipeptides with 22 or 25 amino acid residues, so called syringopeptins. The in vivo activity of the phytotoxins was tested on fusicoccin-stimulated H?-extrusion from cuttings of maize roots, which was inhibited by both types of toxins, with syringomycin more efficient than the syringopeptins. In vitro the H+-ATPase activity of predominantly right-side-out plasma membrane vesicles purified by two-phase partitioning was stimulated by 10 μM syringomycin and inhibited by higher levels, in agreement with the results of others with preparations of dicotyledons. Also the inhibition of the phosphohydrolytic activity of inside-out vesicles of mung bean plasma membrane was confirmed for maize. In both types of vesicles the syringopeptirts were better inhibitors than syringomycin. The pH gradient formed on addition of ATP to predominantly (25% latency) inside-out vesicles was immediately and completely collapsed by syringomycin and syringopeptins; H+-pumping was prevented if the toxins were added before ATP. The inhibition was concentration dependent, but at very low concentrations the effect was inverted. The results of the present investigation, carried out with maize preparations, confirm and extend the evidence so far obtained with dicotyledons in favour of the plasma membrane as an important site of interaction of syringomycin with the plant cell. They also indicate that, except for some details, the effects of syringopeptins at the level of the plasma membrane are the same as those of syringomycin. 相似文献
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Effect of potassium deficiency on the plasma membrane H+ -ATPase of the wood ray parenchyma in poplar
M. AREND G. MONSHAUSEN C. WIND M. H. WEISENSEEL & J. FROMM 《Plant, cell & environment》2004,27(10):1288-1296
The effect of K+ deficiency on the plasma membrane (PM) H+‐ATPase was studied in young stems of poplar plants (Populus tremula × tremuloides) grown with low or full‐strength K+ supply. Immunological assays using different antibodies were applied to test if K+ deficiency affects the amount of immunodetectable PM H+‐ATPases in the stem tissue. The monoclonal antibody clone 46 E5 B11 revealed an increased abundance of PM H+‐ATPases under conditions of low K+ supply, and immunolabelling experiments showed that this increase was restricted to vessel‐associated cells (VACs) of the wood ray parenchyma. Replacement of the monoclonal antibody by a polyclonal antibody against PM H+‐ATPase gave a specific immunoreactivity on blots as well as tissue sections too, but the labelling intensity showed no difference between plants with low or full‐strength K+ supply. Measurements of extracellular H+ concentrations using non‐invasive, H+‐selective microelectrodes revealed a lowering of the pH at the surface of VACs and an enhancement of net efflux of H+ in plants grown with low K+ supply. The present results indicate an up‐regulation of specific isoforms of the PM H+‐ATPase in VACs under K+‐deficient conditions and suggest a key role for these PM H+‐ATPases in unloading K+ from the xylem stream. 相似文献
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YIYONG ZHU TINGJUN DI GUOHUA XU XI CHEN HOUQING ZENG FENG YAN & QIRONG SHEN 《Plant, cell & environment》2009,32(10):1428-1440
The preference of paddy rice for NH4 + rather than NO3 - is associated with its tolerance to low pH since a rhizosphere acidification occurs during NH4 + absorption. However, the adaptation of rice root to low pH has not been fully elucidated. This study investigated the acclimation of plasma membrane H+ -ATPase of rice root to low pH. Rice seedlings were grown either with NH4 + or NO3 - . For both nitrogen forms, the pH value of nutrient solutions was gradually adjusted to pH 6.5 or 3.0. After 4 d cultivation, hydrolytic H+ -ATPase activity, V max , K m , H+ -pumping activity, H+ permeability and pH gradient across the plasma membrane were significantly higher in rice roots grown at pH 3.0 than at 6.5, irrespective of the nitrogen forms supplied. The higher activity of plasma membrane H+ -ATPase of adapted rice roots was attributed to the increase in expression of OSA1, OSA3, OSA7, OSA8 and OSA9 genes, which resulted in an increase of H+ -ATPase protein concentration. In conclusion, a high regulation of various plasma membrane H+ -ATPase genes is responsible for the adaptation of rice roots to low pH. This mechanism may be partly responsible for the preference of rice plants to NH4 + nutrition. 相似文献
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Physiological and biochemical modifications induced by Fe-deficiency have been studied in cucumber ( Cucumis sativus L. cv. Marketer) roots, a Strategy I plant that initiates a rapid acidification of the medium and an increase in the electric potential difference when grown under Fe-deficiency. Using the aqueous two-phase partitioning method, a membrane fraction which has the plasmalemma characteristics was purified from roots of plants grown in the absence and in the presence of iron. The plasma membrane vesicles prepared from Fe-deficient plants showed an H+ -ATPase activity (EC 3.6.1.35) that is twice that of the non-deficient control. Furthermore, membranes from Fe-deficient plants showed a higher capacity to reduce Fe3+ -chelates. The difference observed in the reductase activity was small with ferricyanide (only 30%) but was much greater with Fe3 -EDTA and Fe3 -citrate (210 and 250%, respectively). NADH was the preferred electron donor for the reduction of Fe3+ compounds. Fe3+ reduction in plasma membrane from cucumber roots seems to occur with utilisation of superoxide anion, since addition of superoxide dismutase (SOD; EC 1.15.1.1) "in vitro" decreased Fe3+ reduction by 60%.
The response and the difference induced by iron starvation on these two plasma membrane activities together with a possible involvement of O2 in controlling the Fe3+ /Fe2+ ratio in the rhizosphere are discussed. 相似文献
The response and the difference induced by iron starvation on these two plasma membrane activities together with a possible involvement of O
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M. I. DE MICHELIS M. C. PUGLIARELLO F. RASI-CALDOGNO C. SOAVE 《Plant, cell & environment》1996,19(3):362-366
5-2 is a mutant of Arabidopsis thaliana which is partially resistant to fusicoccin in vivo. We have analysed fusicoccin binding and the activity and amount of H+-ATPase in plasma membrane isolated from mature leaves of the wild type and of mutant 5-2. Fusicoccin binding was similar in plasma membrane from the two genotypes, while H+-ATPase activity was markedly (c. 50%) lower in plasma membrane from mutant 5-2 than in that from the wild type. The H+-ATPase of mutant 5-2 was activated by fusicoccin as much as that of the wild type. In plasma membrane from mutant 5-2, the amount of immunodetectable H+-ATPase, quantified by densitometry of Western blots, was about half that in the wild type. These results indicate that the major defect of mutant 5-2 detectable at the plasma membrane level is a reduction in the amount of H+-ATPase. 相似文献
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Michael Gjedde Palmgren Marianne Sommarin Peter Ulvlskov Peter Leth Jørgensen 《Physiologia plantarum》1988,74(1):11-19
Plasma membrane vesicles were purified from 8-day-old oat ( Avena sativa L. cv. Brighton) roots in an aqueous polymer two-phase system. The plasma membranes possessed high specific ATPase activity [ca 4 μmol P1 (mg protein)−1 min−1 at 37°C]. Addition of lysophosphatidylcholine (lyso-PC) produced a 2–3 fold activation of the plasma membrane ATPase, an effect due both to exposure of latent ATP binding sites and to a true activation of the enzyme. Lipid activation increased the affinity for ATP and caused a shift of the pH optimum of the H+ -ATPase activity to 6.75 as compared to pH 6.45 for the negative H+ -ATPase. Activation was dependent on the chain length of the acyl group of the lyso-PC, with maximal activition obtained by palmitoyl lyso-PC. Free fatty acids also activated the membrane-bound H+ -ATPase. This activation was also dependent on chain length and to the degree of unsaturation, with linolenic and arachidonic acid as the most efficient fatty acids. Exogenously added PC was hydrolyzed to lyso-PC and free fatty acids by an enzyme in the plasma membrane preparation, presumably of the phospholipase A type. Both lyso-PC and free fatty acids are products of phospholipase A2 (EC 3.1.1.4) action, and addition of phospholipase A2 from animal sources increased the H+ -ATPase activity within seconds. Interaction with lipids and fatty acids could thus be part of the regulatory system for H+ -ATPase activity in vivo, and the endogenous phospholipase may be involved in the regulation of the H+ -ATPase activity in the plasma membranne. 相似文献
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Luis E. González de la Vara Víctor M. Baizabal-Aguirre Guadalupe Medina 《Physiologia plantarum》1992,86(3):407-413
The plasma membrane H+ -ATPase (EC 3.6.1.35) was purified by washing red beet ( Beta vulgaris L.) plasma membranes with sodium deoxycholate and separating the ATPase, solubilized with lysophosphatidylcholine, by centrifugation in a glycerol gradient. The purified H+ -ATPase had a sedimentation coefficient of about 8S. In the absence of exogenous protein substrates, the purified ATPase preparation did not present protein kinase activity. Compared with the H+ -ATPase in the plasma membrane, the purified ATPase presented a higher affinity for adenosine 5'-triphosphate (ATP) and a lower sensitivity to the inhibitors vanadate and inorganic phosphate. These changes in the kinetics of the ATPase could also be observed by treating the membranes with lysophosphatidylcholine, without purifying the enzyme. These results can be explained assuming that lysophosphatidylcholine interacts with the ATPase altering its kinetics probably by stimulating the transformation from the inhibitor-binding conformation E2 into the ATP-binding conformation E1. 相似文献
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M. C. Bonza T. Fusca U. Homann G. Thiel & M. I. De Michelis 《Plant biology (Stuttgart, Germany)》2009,11(6):869-877
PPI1 (proton pump interactor isoform 1) is a novel protein able to interact with the C-terminal autoinhibitory domain of the Arabidopsis thaliana plasma membrane (PM) H+ -ATPase. In vitro, PPI1 binds the PM H+ -ATPase in a site different from the known 14-3-3 binding site and stimulates its activity. In this study, we analysed the intracellular localisation of PPI1. The intracellular distribution was monitored in A. thaliana cultured cells by immunolocalisation using an antiserum against the PPI1 N-terminus and in Vicia faba guard cells and epidermal cells by transient expression of a GFP::PPI1 fusion. The results indicate that the bulk of PPI1 is localised at the endoplasmic reticulum, from which it might be recruited to the PM for interaction with the H+ -ATPase in response to as yet unidentified signals. 相似文献
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The presence of dicyclohexylcarbodiimide (DCCD) inhibited the activities of vanadate-sensitive H+ -ATPase in both native and reconstituted plasma membrane of maize (Zea mays L. cv. WF9 × Mo 17) roots. Concentration dependence of DCCD inhibition on adenosine triphosphate (ATP) hydrolysis of native plasma membrane vesicles suggested that the molar ratio of effective DCCD binding to ATPase was close to 1. The DCCD inhibition of ATP hydrolysis could be slightly reduced by the addition of ATP, Mg:ATP, adenosine monophosphate (AMP), Mg:AMP and adenosine diphosphate (ADP). More hydrophilic derivatives of DCCD such as l-ethyl-N?-3-trimethyl ammonium carbodiimide (EDAC) or 1-ethyl-3-3-dimethyl-aminopropyl carbodiimide (EDC) gave no inhibition, indicating that the effective DCCD binding site was located in a hydrophobic region of the protein. The proton transport activity of reconstituted plasma membrane at a temperature below 20°C or above 25°C was much sensitive to DCCD treatment. Build-up of the proton gradient was analyzed according to a kinetic model, which showed that proton leakage across de-energized reconstituted plasma membranes was not affected by DCCD, but was sensitive to the method employed to quench ATP hydrolysis. Reconstituted plasma membrane vesicles treated with DCCD exhibited a differential inhibition of the coupled H+-transport and ATP hydrolysis. The presence of 50 μM DCCD nearly abolished transport but inhibited less than 50% of ATP hydrolysis. The above results suggest that the link between proton transport and vanadate-sensitive ATP hydrolysis is indirect in nature. 相似文献
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E. PEREZ-PRAT M. L. NARASIMHAN X. NIU M. A. BOTELLA R. A. BRESSAN V. VALPUESTA P. M. HASEGAWA M. L. BINZEL 《Plant, cell & environment》1994,17(3):327-333
A cDNA clone encoding an isoform of the plasma membrane H+-ATPase was isolated from Nicotiana tabacum. The steady-state plasma membrane H+-ATPase message levels were the same in unadapted tobacco cells and tobacco cells adapted to 428 mol m−3 NaCl. When cells adapted to 428 mol m−3 NaCl maintained in the absence of NaCl (deadapted) for an excess of 100 passages were exposed to 400 mol m−3 NaCl for 24 h, there was an increased accumulation of plasma membrane H+-ATPase message. The NaCl responsiveness of the deadapted cells was dependent upon the growth cycle stage. Alterations in the levels of plasma membrane FT-ATPase message during the growth cycle support a role for the H+-ATPase in cell growth. These results document the induction by NaCl of plasma membrane FT-ATPase message accumulation in tobacco cells, and suggest that enhanced expression of the plasma membrane FT-ATPase has a role in the short term response of cells of NaCl, but is not necessarily involved in long-term adaptation. 相似文献
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Shu-l Tu Deidre Patterson David Brauer Peter Cooke Irma Sweeney An-Fei Hsu 《Physiologia plantarum》1995,95(4):633-642
The influence of poly(L-lysine) binding on the coupled activities of nitrate-sensitive H+ -ATPase in isolated corn ( Zea mays L. cv. FRB73) root tonoplast vesicles was investigated. The addition of membrane-impermeable poly(L-lysine) caused a slow increase in light scattering of the tonoplast suspension. Electron microscopy showed that the increase was the result of an aggregation of the vesicles. In the presence of 75 m M KCl, a concentration sufficient to sustain near optimal ATP hydrolysis, poly(L-lysine) slightly enhanced the hydrolysis activity but significantly inhibited proton pumping of the H+ -ATPase. Inhibition increased with the average molecular mass of poly(L-lysine) and reached a maximum at 58 kDa. When total osmolarity was kept constant, the replacement of sucrose by KCl enhanced both ATP hydrolysis and proton pumping activities. However, enhancement of proton pumping was significantly greater than that of ATP hydrolysis. An increase in KCl, but not K2 SO4 , significantly relieved poly(L-lysine)-induced inhibition of proton pumping. Kinetic analysis indicated that poly(L-lysine) did not significantly affect the proton leakage of the tonoplast membranes under different energetic conditions. These results suggest that the electrostatic interaction between poly(L-lysine) and the negative charges on the exterior surface of tonoplast vesicles could change the coupling ratio of ATP hydrolysis to proton pumping. Thus, the surface charge of the tonoplast membrane may be involved in the regulation of these two activities. 相似文献
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The intial velocity vs ATP concentration curves obtained with the plasma membrane H+ -ATPase from red beet ( Beta vulgaris L.) did not follow classical Michaelis-Menten kinetics. A rate equation containing second-order terms in ATP concentration in both the numerator and the denominator was used to obtain a significantly better fit to the data. The observed deviations from Michaelis-Menten kinetics were more pronounced in the presence of potassium ions. The inhibition caused by inorganic phosphate was partial. i.e. the ATPase activity extrapolated at an infinite phosphate concentration was not zero. In contrast, the inhibition produced by orthovanadate was nearly total. The inhibitions caused by both phosphate and vanadate were uncompetitive with respect to ATP and enhanced by potassium ions and high concentrations of dimethyl sulfoxide. a solvent used to lower the water activity of the reaction medium. The ATP-dependent proton transport was stimulated by potassium ions and was inhibited by phosphate only at high ATP concentrations. A kinetic mechanism, in which the H+ -ATPase can adopt two conformations during its catalytic cycle and can form a ternary enzyme-ATP-phosphate complex able to hydrolyze bound ATP. is proposed to explain those results. 相似文献
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Plasma membranes from the green alga Chlamydomonas reinhardtii were purified by differential centrifugation and two-phase partitioning in an aqueous polymer system. The isolated plasma membranes were virtually free from contaminating chloroplasts, mitochondria, endoplasmic reticulum and Golgi membranes as shown by marker enzyme and pigment analysis. The isolated plasma membranes exhibited vanadate sensitive ATPase activity, indicating the presence of a P-type ATPase. This was verified by using antibodies against P-type ATPase from Arabidopsis , which crossreacted with a protein of 109 kDa. The ATPase activity was inhibited to more than 90% by vanadate (Ki = 0.9 μ M ) but not affected by inhibitors specific for F- or V-type ATPases. demonstrating the purity of the plasma membranes. Mg-ATP was the substrate, and the rate of ATP-hydrolysis followed simple Michaelis-Menten kinetics giving a Km = 0.46 m M . Free Mg2+ stimulated the activity, K1/2 = 0.68 m M . Maximal activity was obtained at pH 8. The ATPase activity was latent but stimulated 10 to 20-fold in the presence of detergents. This indicates that the isolated plasma membrane vesicles were tightly sealed and mostly right-side-out, making the ATPase inaccessible to the hydrophilic substrate ATP. In the presence of the Brij 58, the isolated plasma membranes performed ATP dependent H+ -pumping as shown by the optical pH probe acridine orange. H+ -pumping was dependent on the presence of valinomycin and K+ ions and completely abolished by vanadate. Addition of Brij 58 has been shown to produce 100% sealed inside-out vesicles of plant plasma membranes (Johansson et al. 1995, Plant J. 7: 165–173) and this was also the case for plasma membranes from the green alga Chlamydomonas reinhardtii. 相似文献
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Eric Gomés Françoise Simon-Plas Marie-Louise Milat Isabelle Gapillout Vladimir Mikès Alain Pugin Jean-Pierre Blein 《Physiologia plantarum》1996,98(1):133-139
Beticolins are yellow toxins produced by the fungus Cercospora beticola . The effect of one of them, beticolin-1. has been investigated on corn root plasma membrane H+ -ATPase (EC 3.6.1.35) at different purification levels (plasma membrane fraction, partially, or highly purified enzyme). The results obtained demonstrated that (1) the purified proton pump was inhibited directly by low amounts of the toxin (I50 = 1.62 ± 0.18 μM), (2) the biological effects of beticolin-1 were similar to those of CBT ( Cercospora beticola toxin). Furthermore, it was established that the efficiency of the different beticolins was clearly related to their ability to interact with the lipid bilayers, determined by fluorometric studies: the toxins that exhibited the lower I50 (50% inhibitory concentrations) values were the molecules that had the lowest partition coefficient to liposomes. 相似文献