Diacylglycerol kinase in plasma membranes from wheat.

Diacylglycerol kinase activity was demonstrated in highly purified plasma membranes isolated from shoots and roots of dark-grown wheat (Triticum aestivum L.) by aqueous polymer two-phase partitioning. The active site of the diacylglycerol kinase was localized to the inner cytoplasmic surface of the plasma membrane using isolated inside-out and right-side-out plasma membrane vesicles from roots. The enzyme activity in plasma membrane vesicles from shoots showed a broad pH optimum around pH 7. The reaction was Mg2+ and ATP dependent, and maximal activity was observed around 0.5 mM ATP and 3 mM MgCl2. The Mg2+ requirement could be substituted only partially by Mn2+ and not at all by Ca2+. The phosphorylation of endogenous diacylglycerol was strongly inhibited by detergents indicating an extreme dependence of the lipid environment. Inositol phospholipids stimulated the activity of diacylglycerol kinase in plasma membranes from shoots and roots, whereas the activity was inhibited by R59022, a putative inhibitor of several diacylglycerol kinase isoenzymes involved in uncoupling diacylglycerol activation of mammalian protein kinase C.     

The plasma membrane NADH oxidase of soybean has vitamin K(1) hydroquinone oxidase activity

Isolated plasma membrane vesicles and the plasma membrane NADH oxidase partially purified from soybean plasma membrane vesicles exhibited a cyanide-insensitive vitamin K(1) hydroquinone oxidase activity with isolated plasma membrane vesicles. Reduced vitamin K(1) (phylloquinol) was oxidized at a rate of about 10 nmol/min/mg protein as determined by reduced vitamin K(1) reduction or oxygen consumption. The K(m) for reduced K(1) was 350 microM. With the partially purified enzyme, reduced vitamin K(1) was oxidized at a rate of about 600 nmol/min/mg protein and the K(m) was 400 microM. When assayed in the presence of 1 mM KCN, activities of both plasma membrane vesicles and of the purified protein were stimulated (0.1 microM) or inhibited (0.1 mM) by the synthetic auxin growth factor 2, 4-dichlorophenoxyacetic acid. The findings suggest the potential participation of the plasma membrane NADH oxidase as a terminal oxidase of plasma membrane electron transport from cytosolic NAD(P)H via reduced vitamin K(1) to acceptors (molecular oxygen or protein disulfides) at the cell surface.     

Diacylglycerol kinase in plasma membranes from wheat

Diacylglycerol kinase activity was demonstrated in highly purified plasma membranes isolated from shoots and roots of dark-grown wheat (Triticum aestivum L.) by aqueous polymer two-phase partitioning. The active site of the diacylglycerol kinase was localized to the inner cytoplasmic surface of the plasma membrane using isolated inside-out and right-side-out plasma membrane vesicles from roots. The enzyme activity in plasma membrane vesicles from shoots showed a broad pH optimum around pH 7. The reaction was Mg²⁺ and ATP dependent, and maximal activity was observed around 0.5 mM ATP and 3 mM MgCl₂. The Mg²⁺ requirement could be substituted only partially by Mn²⁺ and not at all by Ca²⁺. The phosphorylation of endogenous diacylglycerol was strongly inhibited by detergents indicating an extreme dependence of the lipid environment. Inositol phospholipids stimulated the activity of diacylglycerol kinase in plasma membranes from shoots and roots, whereas the activity was inhibited by R59022, a putative inhibitor of several diacylglycerol kinase isoenzymes involved in uncoupling diacylglycerol activation of mammalian protein kinase C.     

玉米根细胞中对钒酸盐敏感的H~＋－泵的研究

用奎吖咽（ｑｕｉｎａｃｒｉｎｅ）作荧光指标剂,测定玉米（ＺｅａｍａｙｓＬ．）根尖微粒体（ＭＩＣ）膜囊泡的Ｈ~＋－泵活性,结果表明１ｍｍｏｌ／ＬＮａＮ_３仅抑制该泵活性约８％,而０．８ｍｍｏｌ／Ｌ钒酸盐（Ｖａｎ）则可抑制其活性达８０％,说明ＭＩＣ制剂中Ｈ~＋－泵活性主要由质膜（ＰＭ）Ｈ~＋－ＡＴＰａｓｅ产生。此泵活性严格需要Ｍｇ~（２＋）,二价阳离子作用大小的顺序为Ｍｇ~（２＋）＞Ｍｎ~（２＋）＞Ｚｎ~（２＋）＞Ｃａ~（２＋）＝０;阴离子作用大小的１顺序为Ｂｒ~－＞Ｃｌ~－＞ＮＯ_３~－＞ＳＯ_４~（２－）,并初步证实当质膜同侧发生电子传递时,没有跨膜Ｈ~＋梯度（△μＨ~＋）生成。     

Inhibition of trans-membrane hexacyanoferrate III reductase activity and proton secretion of maize (Zea mays L.) roots by thenoyltrifluoroacetone

Summary Intact plants can reduce external oxidants by an appearingly trans-membrane electron transport. In vivo an increase in net medium acidification accompanies the reduction of the apoplastic substrate. Up to now, several NAD(P)H dehydrogenases,b-type cytochromes, and a phylloquinone have been identified and partially purified from plant plasma membranes. The occurrence of a quinone in the plasma membrane of maize roots supports the hypothetical model of a proton-transferring redox system, i.e., an electron transport chain with a quinone as mobile electron and proton carrier. In the present study the trans-membrane electron transport system of intact maize (Zea mays L.) roots was investigated. Flow-through and ionostat systems have been used to estimate the electron and proton transport activity of this material. Application of 4,4,4-trifluoro-1-(2-thienyl)-butane-1,3-dione (thenoyltrifluoroacetone) inhibited the reduction of ferricyanide in the incubation solution of intact maize roots up to 70%. This inhibition could not be washed off by rinsing the roots with fresh incubation medium. The acidification of the medium induced after ferricyanide application was inhibited to about 62%. The effects of thenoyltrifluoroacetone on proton fluxes in the absence of ferricyanide have been characterized in a pH-stat system. The net medium acidification by maize roots was inhibited up to 75% by thenoyltrifluoroacetone in the absence of ferricyanide, while dicumarol inhibited net acidification completely. The inhibition of H⁺-ATPase activity was estimated with plasma membrane vesicles isolated by phase partitioning and treated with 0.05% (w/v) Brij 58. ATP-dependent proton gradients and P_i release were measured after preincubation with the effectors. The proton pumping activity by those plasma membrane vesicles was inhibited by dicumarol (53.6%) and thenoyltrifluoroacetone (77.8%), while the release of P_i was unaffected by both inhibitors.Abbreviations Brij 58 polyoxyethylene 20-cetyl ether - duroquinone tetramethyl-p-benzoquinone - HCF III hexacyanoferrate III - TTFA thenoyltrifluoroacetone - vitamin K₁ 2-methyl-3-phytyl-1,4-naphthoquinone - vitamin K₃ 2-methyl-1,4-naphthoquinone     

Auxin levels and auxin binding protein availability inrolB transformedBeta vulgaris cells

The final biological effect of auxin depends both on free auxin levels and on auxin perception capacity.RolB transformedBeta vulgaris L. hairy roots provide a system for studying both factors. Highly purified plasma membrane fractions were prepared with aqueous two-phase partitioning. Individual hairy root clones were assessed for the binding activities of plasma membrane-bound auxin binding proteins and for their free intracellular indole-3-acetic acid levels. The presence of a high affinity auxin binding protein with a dissociation constant of 9.07 x 10^?7 M was detected in the plasma membrane fractions isolated from non-transformed seedling roots and the six clones ofrolB transformed hairy roots. However, the levels of specific IAA binding considerably varied among different hairy root clones and between transformed and non-transformed roots. The levels of the detectable polypeptide in immunoblotting with an antibody against maize 22-kD auxin binding protein subunit were in good agreement to the levels that were detected in auxin binding assays. Differences in the indole-3-acetic acid levels were found between transformed and non-transformed roots and also between different transformed hairy root clones. A negative correlation was observed between free intracellular IAA levels and its specific binding to the plasma membrane-bound auxin binding proteins. A latency study indicated that the binding site for auxin may be located on the exterior face of the plasma membrane     

In vivo and in vitro effects of copper and cadmium on the plasma membrane H+-ATPase from cucumber (Cucumis sativus L.) and maize (Zea mays L.) roots

The plasmalemma vesicles isolated from cucumber and maize roots were used to study the effect of Cu²⁺ and Cd²⁺ on the hydrolytic and proton pumping activities of ATPase. In vivo application of metal ions to the plant growth solutions resulted in stimulation of the proton transport in maize. In cucumber roots the action of metals was not the same: cadmium stimulated the H⁺ transport through plasmalemma whereas Cu²⁺ almost completely inhibited it. Copper ions decreased the hydrolytic activity of H⁺-ATPase in cucumber, without any effect on this activity in membranes isolated from maize roots. The effect of cadmium on the hydrolytic activities was opposite: ATP-hydrolysis activity in plasmalemma was not altered in cucumber, whereas in maize its stimulation was observed. The amount of accumulated metals was not the main reason of different influence of metals on H⁺-ATPase activity in tested plants. In in vitro experiments Cu²⁺ inhibited H⁺ transport in the cucumber, to a higher degree than Cd²⁺ and both metals did not change this H⁺-ATPase activity of plasmalemma isolated from corn roots. Cu²⁺ added into the incubation medium reduced the hydrolytic activity of ATPase in the plasma membrane isolated from cucumber as well as from corn roots. Cd²⁺ diminished the hydrolytic activity of ATPase in cucumber, and no effect of Cd²⁺ in the plasmalemma isolated from corn roots was found. Our results indicated different in vitro and in vivo action of both metals on H⁺-ATPase and different response of this enzyme to Cu²⁺ and Cd²⁺ in maize and cucumber.     

Role of plasma membrane redox activities in elongation growth in plants

Comparing isolated plasma membrane vesicles and excised hypocotyl segments from etiolated seedlings of soybean [ Glycine max (L.) Merr. cv. Williams], certain antiproliferative agents that inhibited growth inhibited plasma membrane redox activities. Additionally, auxins that stimulated growth stimulated plasma membrane redox activities. Hormone stimulation was restricted to NADH oxidase (determined from disappearance of NADH) and was given both by isolated plasma membranes and by a soluhilizedenzyme preparation. Comparing IAA, the native auxin regulator, and 2,4-D, a synthetic regulator, stimulation was observed, hut the dose-response curves were different. Yet, the dose-response relationships of both stimulation of auxin growth and stimulation of NADH oxidase were parallel. Inhibition of auxin-induced growth by antiproliferative drugs was more complex. Some, like actinomycin D, preferentially inhibited NADH oxidase (EC 1.6.99.2) but inhibited NADH-ferricya-nide oxido-reductase (EC 1.6.99.3) as well. Others, like adriamycin, inhibited primarily the NADH-ferricyanide oxido-reductase. Therefore, growth control by auxin appeared to involve NADH oxidase as a rate-limiting terminal oxidase to link electron flow from NADH to oxygen. This observation may provide a fundamental difference from animal cells. With the latter, impermeant electron acceptors such as diferric transferrin or ferricyanide fulfill such a role. In plants, these impermeant electron acceptors were without effect on growth or were growth inhibitory.     

Plasma Membrane H+-ATPase in Maize Roots Induced for NO3- Uptake

Plasma membrane H+-ATPase was studied in maize (Zea mays L.) roots induced for NO3- uptake. Membrane vesicles were isolated by means of Suc density gradient from roots exposed for 24 h either to 1.5 mM NO3- or 1.5 mM SO4-. The two populations of vesicles had similar composition as shown by diagnostic inhibitors of membrane-associated ATPases. However, both ATP-dependent intravesicular H+ accumulation and ATP hydrolysis were considerably enhanced (60-100%) in vesicles isolated from NO3--induced roots. Km for Mg:ATP and pH dependency were not influenced by NO3- treatment of the roots. ATP hydrolysis in plasma membrane vesicles for both control and NO3--induced roots was not affected by 10 to 150 mM NO3- or Cl-. On the other hand, kinetics of NO3-- or Cl--stimulated ATP-dependent intravesicular H+ accumulation were modified in plasma membrane vesicles isolated from NO3-- induced roots. Immunoassays carried out with polyclonal antibodies against plasma membrane H+-ATPase revealed an increased steady-state level of the enzyme in plasma membrane vesicles isolated from NO3--induced roots. Results are consistent with the idea of an involvement of plasma membrane H+-ATPase in the overall response of roots to NO3-.     

Transmembrane electron transport in sealed and NAD(P)H-loaded right-side-out plasma membrane vesicles isolated from maize (Zea mays L.) roots

Electron transport across plasma membranes has been observed in vivo in several plant species and tissues after the application of ferricyanide (hexacyanoferrate III, HCF III). In the present work, a transmembrane electron flow was demonstrated in sealed and NAD(P)H-loaded right-side-out (apoplastic-side-out) plasma membrane vesicles isolated from maize (Zea mays L.) roots. HCF III was reduced at a rate of up to 126 nmol min(-1) mg(-1) protein by NADPH-loaded vesicles, while reduction rates with NADH-loaded vesicles were several-fold lower. Coincident with the reduction of HCF III, NAD(P)H oxidation was observed inside the vesicles. The dependence of reduction on K+ indicated an electrogenic transmembrane electron flow. Application of 100 microM calcium decreased HCF III reduction up to 66%, while pre-incubation with 200 microM warfarin or diphenylene iodonium inhibited transmembrane electron transport only weakly. Fe(3+)-EDTA was not reduced significantly by NADPH-loaded plasma membrane vesicles, whereas XTT was reduced at a rate of 765 pmol min(-1) mg(-1) protein. The results suggested a major function for NADPH in transmembrane electron flow and were discussed in conjunction with in vivo experiments.     

Plasma membrane vesicles prepared from unadhered monocytes: Characterization of calcium transport and the calcium ATPase

We have purified unadhered human monocytes in sufficient quantities to prepare monocyte plasma membrane vesicles and study vesicular calcium transport. Monocytes were isolated from plateletpheresis residues by counterflow centrifugal elutriation. By combining this source and procedure, 7 x 10(8) monocytes of over 90% purity were obtained. The membranes, isolated on a sucrose step gradient, had an 18-fold enrichment in Na,K-ATPase, a 29-fold diminution of succinate dehydrogenase activity and were vesicular on transmission electron micrographs. The membrane vesicles loaded with oxalate accumulated calcium only in the presence of Mg and ATP. Calcium uptake did not occur if ATP was replaced by any of five nucleotide phosphates or if Mg was omitted. Calcium transport had a maximal velocity of 4 pmoles calcium/micrograms vesicle protein/min and a Km for calcium of 0.53 microM. The ionophore A23187 completely inhibited calcium accumulation while 5 mM sodium cyanide and 10 microM ouabain had no effect. A calcium-activated ATPase was present in the same plasma membrane vesicles. The calcium ATPase had a maximal velocity of 18.0 pmoles calcium/micrograms vesicle protein/min and a Km for calcium of 0.60 microM. Calcium-activated ATPase activity was absent if Mg was omitted or if (gamma - 32P) GTP replaced (gamma - 32P) ATP. Monocyte plasma membranes that were stripped of endogenous calmodulin by EGTA treatment showed a reduced level of calcium uptake and calcium ATPase activity. The addition of exogenous calmodulin restored the transport activity to that of unstripped monocyte plasma membranes. Thus, monocyte plasma membrane vesicles contain a highly specific, ATP-dependent calcium transport system and a calcium-ATPase with similar high calcium affinities.     

Toxins of Pseudomonas syringae pv. syringae affect H+-transport across the plasma membrane of maize

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.     

Calmodulin-stimulated ATPase of maize cells: functional reconstitution, monoclonal antibodies and subcellular localization

Microsomal calmodulin-stimulated ATPase (CaM-ATPase) was purifiedfrom dark-grown maize shoots by affinity chromatography andfunctionally reconstituted into phosphatidylcholine vesiclesby detergent dialysis. The resultant proteoliposomes showedCaM-stimulated ATP hydrolysis and CaM-stimulated ATP-dependentcalcium uptake, indicating that the CaM-ATPase is a calciumpump. Microsomal membranes prepared from dark-grown maize shootswere fractionated in continuous sucrose gradients. Calcium transportwas observed in plasma membrane and intracellular membrane fractions,but the bulk of the calmodulin-stimulated activity was foundto be associated with intracellular membranes. Five monoclonalantibodies were raised to affinity purified CaM-ATPase. Immunocytochemicaldata from roots suggested that the CaM-ATPase might be associatedwith membranes involved in the function of the mitotic apparatusin meristematic tissue. Key words: Zea mays L, calmodulin-stimulated calcium pump, functional reconstitution, mitosis, monoclonal antibody     

Identification of Ca2+-stimulated polyphosphoinositide phospholipase C in isolated plant plasma membranes

A polyphosphoinositide phospholipase C has been identified in highly purified plasma membranes from shoots and roots of wheat seedlings. The enzyme preferentially hydrolysed phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate and had a different phosphoinositide substrate profile from soluble phospholipase C. The enzyme activity was lower in plasma membranes isolated from light-grown shoots than from dark-grown ones, whereas no differences in activity between plasma membranes from light- and dark-grown roots were seen. Maximum activity of the membrane-bound enzyme was observed around pH 6. It was activated by micromolar concentrations of Ca2+, but not by GTP or GTP analogues. The enzyme may participate in signal transduction over the plant plasma membrane.     

Effect of centrifugation on separation by aqueous two-phase partition of an early and late endosome model using inside-out plasma membrane vesicles from plants

Inside-out vesicles of plasma membranes prepared from a plant source were used as models to investigate effects of centrifugal forces on separations of early and late endosome populations by aqueous two-phase partition. Endosome subpopulations were resolved readily by preparative free-flow electrophoresis where acidification of the interiors of late endosomes occurred upon addition of ATP to activate a proton translocating ATPase. The resultant increased diffusion potential provided for a surface difference between late and early endosomes to permit electrophoretic separation. With the plant membranes, unincubated inside-out plasma membrane vesicles modeled early endosomes, whereas inside-out vesicles incubated with 1 mM ATP modeled late endosomes. A latent, 2,4-dichlorophenoxyacetic acid (2,4-D)-(auxin)-stimulated NADH:protein disulfide reductase measured spectrophotometrically was used as an enzymatic marker for both populations of inside-out vesicles. Phase partition behavior of each population was quantitated using total protein as the parameter.     

两相分配法制备玉米根质膜及其纯度鉴定

用ＤｅｘｔｒａｎＴ５００,ＰＥＧ３３５０两相体系制备玉米根质膜．首先在高盐浓度（２２ｍｍｏｌ／ＬＮａＣｌ）下选用五种不同的聚合物浓度（５．８％、６．０％、６．２％、６．３％、６．４％,Ｗ／Ｗ）,研究了玉米根质膜在两相体系中的分配情况,在此基础上进一步研究了Ｎａ－Ｃｌ浓度（２、４、５、１１、２２ｍｍｏｌ／Ｌ）对玉米根质膜的纯度及得率的影响．结果表明,制备玉米根质膜选用６．２％（Ｗ／Ｗ）聚合物浓度,７．５ｍｍｏｌ／ＬＮａＣｌ的两相体系比较合适．标志酶鉴定及低ｐＨ值磷钨酸染色电镜检测均表明获得了高纯度密实的正向型的质膜囊泡,质膜标志酶ＶＯ３－４－ＡＴＰａｓｅ的活性潜势达８８．９％．     

Characterization and Distribution of Transferrin Receptors in the Rat Brain

The mechanism of calcium transport across the plasma membrane of chromaffin cells was studied using plasma membrane vesicles prepared from cells of adrenal medulla. Purification of the plasma membrane was about 30-fold, based on the alpha-bungarotoxin binding activity. The isolated membrane vesicles have both Na+/Ca2+ exchange and calcium pump activities. The Na+/Ca2+ exchange activity increased with the free calcium concentration and was not saturated at 1 mM, the highest concentration tried. The K1/2 of the calcium pump for calcium is 0.06 microM. Part of the Na+/Ca2+ exchange activity was inhibited by preincubation of the membrane vesicles with veratridine and the effect of veratridine was reversed by tetrodotoxin. The calcium taken up by the calcium pump was released by 0.005% saponin, but was not affected by oxalate. The calcium taken up by the calcium pump was released by exchanging with the external sodium, which suggests that the two calcium transport systems are located on the same population of membrane vesicles. The above evidence indicates that both calcium transport activities are located on the plasma membrane and not on contaminating organelle membranes. The significance of the two calcium transport systems in regulation of cytosolic calcium concentration of chromaffin cells is discussed.     

ATPase activity of isolated plasma membrane vesicles of leaves of Elodea as affected by thiol reagents and NADH/NAD+ ratio

The goal of this study was to test the hypothesis that the plasma membrane-bound ATPase activity is influenced by the redox poise of the cytoplasm. Purified plasma membrane vesicles from leaves of Elodea canadensis Michx. and E. nuttallii (Planch.) St. John were isolated using an aqueous polymer two-phase batch procedure. The distribution of marker enzyme activities confirmed the plasma membrane origin of the vesicles. The vesicles exhibited NADH-ferricyanide reductase activity, indicating the presence of a redox chain in the plasma membrane. The K⁺, Mg²⁺-ATPase activity associated with these vesicles was inhibited by the sulfhydryl reagents N-ethylmaleimide and glutathione (GSSG). Furthermore the activity was inhibited by NAD⁺. This inhibition by NAD⁺ was relieved by increasing the NADH/NAD⁺ ratio. The possibility that the ATPase activity is regulated by the cytoplasmic NAD(P)H/ NAD(P)⁺ ratio is discussed, as well as the role of a plasma membrane-bound redox chain.     

Cytoplasmic Orientation of the Naphthylphthalamic Acid-Binding Protein in Zucchini Plasma Membrane Vesicles

Polar transport of the plant hormone auxin is blocked by substances such as N-1-naphthylphthalamic acid (NPA), which inhibit auxin efflux and block polar auxin transport. To understand how auxin transport is regulated in vivo, it is necessary to discern whether auxin transport inhibitors act at the intra- or extracellular side of the plasma membrane. Populations of predominantly in-side-in plasma membrane vesicles were subjected to treatments that reverse the orientation. These treatments, which included osmotic shock, cycles of freezing and thawing, and incubation with 0.05% Brij-58, all increased NPA-binding activity and the accessibility of the binding protein to protease digestion. Marker activities for inside-out vesicles also increased, indicating that these treatments act by altering the membrane orientation. Finally, binding data were analyzed by multiple analyses and indicated that neither the affinity nor abundance of binding sites changed. Kinetic analyses indicated that the change in NPA-binding activity by Brij-58 treatment was due to an increase in the initial rates of both association and dissociation of this ligand. These experiments indicated that the NPA-binding site is on the cytoplasmic face of the plasma membrane in zucchini (Cucurbita pepo L. cv Burpee Fordhook).