Verapamil-Sensitive Calcium Transporter in the Peribacteroid Membrane of Symbiosomes from Vicia faba Root Nodules

Based on electron microscopic studies and visualization of calcium with the Ca indicator pyroantimonate, it was established that a prolonged incubation of the bean (Vicia faba L.) root nodules and isolated symbiosomes in EGTA-containing buffer depletes calcium in these nitrogen-fixing units. Other experiments demonstrated that the induction of calcium deficit in symbiosomes both in vivo and in vitro substantially decreases their nitrogenase activity. The addition of verapamil and ruthenium red, well-known inhibitors of Ca²⁺ channels, to the suspension of root nodules largely prevented both the EGTA-induced calcium efflux from the symbiosomes and the decrease in their nitrogenase activity. Similar effects of verapamil were also observed on isolated symbiosomes. The treatment of isolated symbiosomes with valinomycin in the presence of K⁺ induced a rapid efflux of Ca²⁺ from symbiosomes; this efflux was strongly inhibited by verapamil. The results present evidence for the existence in the peribacteroid membrane of a Ca²⁺-transporting system that exports Ca²⁺ from the symbiosomes.     

Calcium channels and membrane disorders induced by drought stress in Vicia faba plants supplemented with calcium

Vicia faba plants were grown under drought conditions and variously supplemented with calcium. Drought stress markedly inhibited the growth of Vicia faba plants. Ca²⁺ ameliorated to a large extent this inhibition; fresh weight, dry mass, chlorophyll and water contents were variably improved. Membranes were, also, negatively affected by drought stress and percentage leakage was elevated. Concomitantly, the efflux of K⁺ and Ca²⁺ was enhanced by drought but lowered by supplemental Ca²⁺. In addition, membranes of droughted plants were sensitive to the Ca²⁺ channel blockers lanthanum, nifedipine or verapamil more than those of control plants. These blockers significantly increased the efflux of K⁺ and Ca²⁺ as well as percentage leakage particularly in those of droughted plants. The above results indicated that the functioning of the calcium channels was negatively affected when Vicia faba was grown under drought conditions. However, much of the drought-induced disorders including sensitivity towards the applied calcium channel blockers could be ameliorated by supplemental Ca²⁺.     

Activation of Ferredoxin-NADP+Oxidoreductase in Vicia fabaLeaves Induced by a Short-Term Increase in Irradiance

The effect of a short-term increase in growth irradiance (I) by 1.5–5 times on the rate of the photosynthetic electron transport and the activity of ferredoxin-NADP⁺oxidoreductase (FNR) in the leaves of broadbean (Vicia fabaL.) plants grown under an irradiance of 8 W/m²was studied. NADPH-diaphorase and cytochrome creductase activities of FNR were determined in isolated chloroplasts and leaf homogenates. The duration of the plant exposure to a higher I varied from 1–30 min to 2 or 24 h. The rate of noncyclic electron transport from water to NADP⁺and the NADPH-diaphorase activity of FNR increased significantly 15 min after a twofold increase in the I. FNR activation was also found after a short-term (1 min) increase in growth I by 1.5 times. The degree of light-induced activation of FNR was dependent on the light intensity, the duration of plant exposure, and the leaf age. The activation of FNR induced by a short-term increase in the I was reversible. However, inactivation of FNR proceeded more slowly than its light-induced activation. Thus, a relatively small change in the I was sufficient to induce the adaptive response of the photosynthetic apparatus at the level of the electron-transport chain. The results obtained confirm a conclusion made previously that a rapid activation of FNR induced by an increase in the I occurs in the absence of de novoprotein synthesis.     

我国蚕豆根瘤菌的数值分类及其16S rDNA PCR-RFLP研究*

对分离自我国11个省24个地区49株蚕豆根瘤菌及11株参比菌株进行了唯一碳源、氮源、抗生素、耐逆性和酶活性等138个表型性状测定,并用M INTS软件进行聚类分析。结果表明,全部供试菌株在59%的相似水平上聚在一起,在80%的相似水平上可分为6个群。其中群4与参比菌株聚在一起,而其他5个群均由未知菌组成。进一步对36株菌进行了16S rDNA PCR-RFLP分析,在85%相似水平上供试菌可分为4个群和1个独立的分支,其聚群结果与数值分类结果有较好的一致性。表型及遗传型分析结果表明,我国蚕豆根瘤菌具有极大的多样性。     

Characterization of the plasma-membrane H+-ATPase from Vicia faba guard cells

Stomatal movement is controlled by external and internal signals such as light, phytohormones or cytoplasmic Ca²⁺. Using Vicia faba L., we have studied the dose-dependent effect of auxins on the modulation of stomatal opening, mediated through the activity of the plasma-membrane H⁺-ATPase. The patch-clamp technique was used to elucidate the electrical properties of the H⁺-ATPase as effected by growth regulators and seasonal changes. The solute composition of cytoplasmic and extracellular media was selected to record pump currents directly with high resolution. Proton currents through the ATPase were characterized by a voltage-dependent increase in amplitude, positive to the resting potential, reaching a plateau at more depolarized values. Upon changes in extracellular pH, the resting potential of the cell shifted with a non-Nernst potential response (±21 mV), indicating the contribution of a depolarizing ionic conductance other than protons to the permeability of the plasma membrane. The use of selective inhibitors enabled us to identify the currents superimposing the H⁺-pump as carried by Ca²⁺. Auxinstimulation of this electroenzyme resulted in a rise in the outwardly directed H⁺ current and membrane hyperpolarization, indicating that modulation of the ATPase by the hormone may precede salt accumulation as well as volume and turgor increase. Annual cycles in pump activity (1.5–3.8 μA · cm^-2) were expressed by a minimum in pump current during January and February. Resting potentials of up to -260 mV and plasmamembrane surface area, on the other hand, did not exhibit seasonal changes. The pump activity per unit surface area was approximately 2- to 3-fold higher in guard cells than in mesophyll cells and thus correlates with their physiological demands.     

Permeation of Ca2+ through K+ channels in the plasma membrane of Vicia faba guard cells

Summary The whole-cell patch-clamp method has been used to measure Ca²⁺ influx through otherwise K⁺-selective channels in the plasma membrane surrounding protoplasts from guard cells of Vicia faba. These channels are activated by membrane hyperpolarization. The resulting K⁺ influx contributes to the increase in guard cell turgor which causes stomatal opening during the regulation of leaf-air gas exchange. We find that after opening the K⁺ channels by hyperpolarization, depolarization of the membrane results in tail current at voltages where there is no electrochemical force to drive K⁺ inward through the channels. Tail current remains when the reversal potential for permeant ions other than Ca²⁺ is more negative than or equal to the K⁺ equilibrium potential (–47 mV), indicating that the current is due to Ca²⁺ influx through the K⁺ channels prior to their closure. Decreasing internal [Ca²⁺] (Ca _i ) from 200 to 2 nm or increasing the external [Ca²⁺] (Ca _o ) from 1 to 10 mm increases the amplitude of tail current and shifts the observed reversal potential to more positive values. Such increases in the electrochemical force driving Ca²⁺ influx also decrease the amplitude of time-activated current, indicating that Ca²⁺ permeation is slower than K⁺ permeation, and so causes a partial block. Increasing Ca _o also (i) causes a positive shift in the voltage dependence of current, presumably by decreasing the membrane surface potential, and (ii) results in a U-shaped current-voltage relationship with peak inward current ca. –160 mV, indicating that the Ca^2– block is voltage dependent and suggesting that the cation binding site is within the electric field of the membrane. K⁺ channels in Zea mays guard cells also appear to have a Ca _i -, and Ca _o -dependent ability to mediate Ca²⁺ influx. We suggest that the inwardly rectiying K⁺ channels are part of a regulatory mechanism for Ca _i . Changes in Ca _o and (associated) changes in Ca _i regulate a variety of intracellular processes and ion fluxes, including the K⁺ and anion fluxes associated with stomatal aperture change.This work was supported by grants to S.M.A. from NSF (DCB-8904041) and from the McKnight Foundation. K.F.-G. is a Charles Gilbert Heydon Travelling Fellow. The authors thank Dr. R. MacKinnon (Harvard Medical School) and two anonymous reviewers for helpful comments.     

我国蚕豆根瘤菌的数值分类及其16SrDNA PCR-RFLP研究

对分离自我国11个省24个地区49株蚕豆根瘤菌及11株参比菌株进行了唯一碳源、氮源、抗生素、耐逆性和酶活性等138个表型性状测定,并用MINTS软件进行聚类分析。结果表明,全部供试菌株在59％的相似水平上聚在一起,在80％的相似水平上可分为6个群。其中群4与参比菌株聚在一起,而其他5个群均由未知菌组成。进一步对36株菌进行了16S rDNA PCR—RFLP分析,在85％相似水平上供试菌可分为4个群和1个独立的分支,其聚群结果与数值分类结果有较好的一致性。表型及遗传型分析结果表明,我国蚕豆根瘤菌具有极大的多样性。     

ATPase activity in plasmalemma-rich vesicles isolated by aqueous two-phase partitioning from Vicia faba mesophyll and epidermis: Characterization and influence of abscisic acid and fusicoccin

Plasmalemma-rich microsomal vesicles were prepared from whole leaf and acid-washed epidermal tissue of Vicia faba L. cv. Osnabrücker Markt by aqueous two-phase partitioning in dextran T-500 and polyethylenglycol 1350 aqueous phases. These vesicles were tightly sealed and predominantly right-side out, and contained a K⁺ -stimulated, mg²⁺-dependent and vanadate-sensitive ATPase. The enzyme from both tissues exhibited nearly identical properties: pH optimum 6.4, K_m for ATP 0.60 mM(whole leaf) and 0.67 mM (epidermis). V_max -480 nmol (mg protein)¹ min¹ (whole leaf) and 510 nmol (mg protein)¹ min¹ (epidermis), I₅₀ (Na₃,VO₄) 7.5 μM (whole leaf) and 15 μM (epidermis). The enzyme was not inhibited by NO₃(50 mM)or sodium azide (I mM). DCCD (20 μM) reduced enzyme activity to 50% (whole leaf) and 58% (epidermis), gramicidin S (20 μM) to 36% (whole leaf) and 41%(epidermis). Ca²⁺ inhibited the ATPase [I₅₀, C²⁺: 0.5 mM(whole leaf) and 0.8 mM(epidermis)]. Ca²⁺ inhibited the ATPase [I₅₀, C²⁺ 0.5 mM(whole leaf) und 0.8 (epidermis)]. The vanadate-sensitive ATPase from whole leaf and epidermal tissue was slightly but significantly stimulated by fusicoccin (FC) at a concentration (0.13 μM) promoting stomatal opening. The stimulation was not seen in the solubilized ATPase. Stomata of the cultivar used here were insensitive lo (±)ABA up to 2 μM level which is effective in most other cultivars and species. Likewise, at this concentration no effect of ABA on the activity of the epidermal ATPase was observed. The data are discussed with respect to the interaction of FC and ABA with the ATPase.     

Fatty Acid Composition of the Peribacteroid Membrane and the ER in Nodules of Glycine max Varies after Infection by Different Strains of the Microsymbiont Bradyrhizobiumjaponicum

The fatty acid composition of ER, Golgi and peribacteroid membrane (PBM) from root nodules formed on Glycine max after infection with different strains of Bradyrhizobium japonicum has been analysed by gas chromatography. In each plant-microsymbiont combination the fatty acid composition (FAC) of the PBM is distinct from ER and Golgi. The similarity between ER and PBM fatty acid composition is significantly stronger than between Golgi and PBM. In addition the fatty acid composition of all membrane systems in nodules is affected by the microsymbiont strain. A comparison of four strains of Bradyrhizobium japonicum grown in agar surface culture and isolated as the symbiotic bacteroids reveals a decrease in oleic acid during bacteroid differentiation.     

Phloem loading in Vicia faba leaves: Effect of N-ethylmaleimide and parachloromercuribenzenesulfonic acid on H+ extrusion,K+ and sucrose uptake

The effects of a penetrating (NEM) and a non-penetrating (PCMBS) sulfhydryl-specific reagent on proton extrusion, ⁸⁶Rb and [U-¹⁴C]sucrose uptake by Vicia faba leaves have been studied. Proton extrusion was strongly or completely inhibited by 0.1 mM NEM. ⁸⁶Rb and [U-¹⁴C]sucrose uptake were markedly reduced by NEM concentrations equal to or higher than 0.5 mM. Under our experimental conditions, PCMBS (1 mM) exerted a strong inhibition on [¹⁴C]sucrose uptake but did not inhibit proton extrusion and ⁸⁶Rb uptake. The sensitivity of phloem loading to PCMBS is thought to be a consequence of sugar-carrier blockage and not of inhibition of the proton pump.Abbreviations CCCP carbonylcyanide-m-chlorophenylhydrazone - DES diethylstilbestrol - DCCD dicyclohexylcarbodiimide - FC Fusicoccin - NEM N-ethylmaleimide - PCMBS p-chloromercuribenzenesulfonic acid     

Identification and biochemical characterization of the plasma-membrane H+-ATPase in guard cells of Vicia faba L.

The plasma-membrane H⁺-pump in guard cells generates the driving force for the rapid ion fluxes required for stomatal opening. Since our electrophysio-logical studies revealed a two fold higher pump-current density in guard cells than in mesophyll cells of Vicia faba L. we elucidated the biochemical properties of this proton-translocating ATPase in plasma-membrane vesicles isolated from both cell types. The capability of the H⁺ —ATPase to create an H⁺ gradient is maintained in plasma-membrane vesicles derived from purified guard cells via blender maceration, high-pressure homogenization and polymer separation. The H⁺-pumping activity of these vesicles coincides with the presence of two polypeptides of approx. 100 and 92 kDa which are recognized by a monoclonal antibody raised against the plasma-membrane H⁺-ATPase from Zea mays L. coleoptiles. Comparison of H⁺-pumping activities of isolated membranes revealed an approximately two fold higher activity in guard cells than in mesophyll cells with respect to the total membrane protein content. Furthermore, we demonstrated by western blotting that the difference in pump activities resulted from a higher abundance of the electroenzyme per unit membrane protein in guard-cell plasma membranes. We suggest that the high H⁺-pump capacity is necessary to enable guard cells to respond to sudden changes in the environment by a change in stomatal aperture.     

Role of calcium in the modulation of Vicia guard cell potassium channels by abscisic acid: A patch-clamp study

There is evidence for a role of increased cytoplasmic Ca²⁺ in the stomatal closure induced by abscisic acid (ABA), but two points of controversy remain the subject of vigorous debate—the universality of Ca²⁺ as a component of the signaling chain, and the source of the increased Ca²⁺, whether influx across the plasmalemma, or release from internal stores. We have addressed these questions by patch-clamp studies on guard cell protoplasts of Vicia faba, assessing the effects of ABA in the presence and absence of external Ca²⁺, and of internal Ca²⁺ buffers to control levels of cytoplasmic Ca²⁺. We show that ABA-induced reduction of the K⁺ inward rectifier can occur in the absence of external Ca²⁺, but is abolished when Ca²⁺ buffers are present inside the cell. Thus, some minimum level of cytoplasmic Ca²⁺ is a necessary component of the signaling chain by which ABA decreases the K⁺ inward rectifier in stomatal guard cells, thus preventing stomatal opening. Release of Ca²⁺ from internal stores is capable of mediating the response, in the absence of any Ca²⁺ influx from the extracellular medium. The work also shows that enhancement of the K⁺ outward rectifier by ABA is Ca²⁺ independent, and that other signaling mechanisms must be involved. A role for internal pH, as suggested by H.R. Irving, C.A. Gehring and R.W. Parish (Proc. Natl. Acad. Sci. USA 89:1790–1794, 1990) and M.R. Blatt (J. Gen. Physiol. 99:615–644, 1992), is an attractive working hypothesis.     

Changes of intracellular Na+ concentration in erythrocytes caused by pulsed electrical field

Changes of sodium ionic concentration of human erythrocytes applied to pulsed electrical field (PEF) were studied by using shift reagent and NMR spectroscopy. The results show that the concentration of intracellular Na⁺ increases with the increasing intensity of PEF when the erythrocytes are applied to PEF with higher intensities. The relationship between intracellular Na concentrations and the intensities of PEF does not follow linear or exponen-tial behavior. As the intensities increase, the intracellular Na⁺concentrations increase even faster by an exponential curve. However under effects of PEF at lower intensities, intracellular Na⁺ concentration decreases. Ouabain can in-hibit the decrease of intracellular Na concentration, and the inhibition increases with the increasing concentration of ouabain, suggesting that Na⁺ , K⁺ -ATPase on cell membrane can be activated by PEF at lower intensities. Direct measurement of activities of the enzyme by using Malachite green method has confirmed this observation. Cell perme-abilities to ions, activation of enzymes by electrical fields and transmission of physical signals like PEF across cell mem-branes are discussed.     

Posterior Midgut Epithelial Cells Differ in Their Organization of the Membrane Skeleton from Other Drosophila Epithelia

In epithelial cells, the various components of the membrane skeleton are segregated within specialized subregions of the plasma membrane, thus contributing to the development and stabilization of cell surface polarity. It has previously been shown that, in various Drosophila epithelia, the membrane skeleton components ankyrin and alphabeta-spectrin reside at the lateral surface, whereas alphabeta(H)-spectrin is restricted to the apical domain. By use of confocal immunofluorescence microscopy, the present study characterizes the membrane skeleton of epithelial cells in the posterior midgut, leading to a number of unexpected results. First, ankyrin and alphabeta-spectrin are not detected on the entire lateral surface but appear to be restricted to the apicolateral area, codistributing with fasciclin III at smooth septate junctions. The presumptive ankyrin-binding proteins neuroglian and Na(+),K(+)-ATPase, however, do not colocalize with ankyrin. Second, alphabeta(H)-spectrin is enriched at the apical domain but is also present in lower amounts on the entire lateral surface, colocalizing apicolaterally with ankyrin/alphabeta-spectrin. Finally, despite the absence of zonulae adherentes, F-actin, beta(H)-spectrin, and nonmuscle myosin-II are enriched in the midlateral region. Thus, the model established for the organization of the membrane skeleton in Drosophila epithelia does not hold for the posterior midgut, and there is quite some variability between the different epithelia with respect to the organization of the membrane skeleton.     

Regulating role of acetylcholine and its antagonists in inward rectified K+ channels from guard cell protoplasts ofVicia faba

The inward rectified potassium current ofVicia faba guard cell protoplasts treated with acetylcholine (ACh) or the antagonists of its receptors were recorded by employing the patch clamp technique. The results show that ACh at lower concentrations increases the inward K⁺ current, in contrast, ACh at higher concentrations inhibits it. Treated with d-Tubocurarine (d-Tub), an antagonist of the nicotine ACh receptor (nAChR) inhibits the inward K⁺ current by 30%. Treated with atropine (Atr), an antagonist of the muscarine (Mus) ACh receptor (mAChR) also inhibits it by 36%. However, if guard cell protoplasts are treated with d-Tub and Atr together, the inward K⁺ current is inhibited by 60% –75%. Tetraethylammonium chloride (TEA), a strong inhibitor of K⁺ channels has no effect on the inward K⁺ current regulated by ACh, suggesting that there are inward K⁺ channels modulated by AChRs on the membrane of the guard cell protoplasts. These data demonstrate an ACh-regulated mechanism for stomatal movement.     

Asymmetric distribution of the plasma-membrane H+-ATPase in embryos of Vicia faba L. with special reference to transfer cells

The ultrastructural localization of the plasma-membrane H⁺ -ATPase by immunocytochemistry was studied in Vicia faba embryos which absorb nutrients from the maternal organism through the transfer cells of their external epidermis. The samples were embedded in LR White resin and the specificity of immunolabelling was checked by inhibition in the presence of purified H⁺-ATPase. The following results were obtained: (i) The H⁺-ATPase density varied according to the cell type, being higher in transfer cells than in other cell types, especially the non-modified cells of the internal epidermis. (ii) There was a marked polarity in transfer cells as proton pumps were more numerous in the area of plasmalemma infoldings where active nutrient uptake is assumed to take place, (iii) No clear immunolabelling occurred on the plasma membrane of plasmodesmata. These results demonstrate that in transfer cells the area of plasmalemma infoldings is highly specialized for active solute transport; they also support the idea of specific structural properties of the plasmalemma in plasmodesmata.This work was supported by the Centre National de la Recherche Scientifique (URA CNRS 574). We express our gratitude to Dr M.G. Palmgren (Royal Veterinary and Agricultural University, Copenhagen, Denmark) for his gift of purified H⁺-ATPase. We wish to thank J.C. Fromont for his skillful technical assistance with the immunological procedures. We are grateful to J.M. Perault and C. Besse of the Electron Microscopy Service (Service Universitaire de Microscopie Electronique Appliquée à la Biologie Poitiers, France) for their contribution to the microscopical techniques.     

Changes in the Composition,Structure, and Metabolism of Erythrocyte Membranes in Schizophrenia and Other Psychopathologies

Changes in the lipid-protein composition and structural/metabolic properties of erythrocyte membranes were analyzed in 18 patients with heboid paranoia examined in the period of exacerbation of this disease, as well as in 24 patients with mental retardation and in 24 patients with neurotic disorders. The control group included 45 mentally and somatically healthy persons. In our study, we used the following techniques: thin-layer chromatography, fluorochrome assay, measuring of Na⁺,K⁺-ATPase activity and level of lipid peroxidation, separation of the membrane proteins by electrophoresis, and transmission electron microscopy. In the erythrocyte membranes of patients with exacerbated heboid paranoia, who obtained no psychopharmacological correction before the examination, we observed clear increases in the relative amounts of cholesterol and lysophosphatidylcholine, drops in the levels of phosphatidylethanolamine and phosphatidylcholine, a rise in the microviscosity of the lipid phase, marked disorganization of the membrane protein spectrum, and a significant decrease in Na⁺,K⁺-ATPase activity accompanied by ultrastructural manifestations of damage to the erythrocyte membranes. Comparison of the structural and metabolic properties of erythrocyte membranes in schizophrenic patients with those in patients with exogenous mental retardation and neurotic disorders showed that an overwhelming part of the observed changes in the indices under study were similar in their direction, and intergroup differences were of a quantitative character. These data allow us to postulate that disorganization of the cell membranes in the extracerebral cellular systems in schizophrenia and other mental disorders is, on the one hand, significant and, on the other hand, nonspecific.     

Investigations of the inhibitory effect of propranolol,chlorpromazine, quinine,and dicyclohexylcarbodiimide on the swelling of yeast mitochondria in potassium acetate. Evidences for indirect effects mediated by the lipid phase

The mode of action of propranolol, chlorpromazine, and quinine, three cationic drugs inhibiting swelling of yeast mitochondria in potassium acetate, was investigated by looking at their effect on fluorescent probes of the polar heads and of the nonpolar moiety of the membranes, under inhibitory conditions of swelling. As expected, propranolol and chlorpromazine exhibited specificity for anionic phospholipids since they increased the binding of the anionic probe 1-anilino 8-naphthalenesulfonate (ANS). Although propranolol did not release 1,6-diphenyl-1,3,5-hexatriene (DPH) from the hydrophobic moiety of the membrane, it increased the excimer/ monomer fluorescence ratio of 10-(1-pyrene)decanoate, suggesting that it induced a limitation in the movements of the aliphatic chains of phospholipids. Opposite to propranolol, chlorpromazine removed DPH from the membrane, suggesting that it bound essentially to the hydrophobic moiety. However, chloramphenicol, which was also able to remove DPH but did not increase the binding of ANS, did not inhibit swelling. Inhibition by chlorpromazine therefore appeared to be related to its binding to the hydrophobic moiety of anionic phospholipids. Quinine had no effect on membrane properties: at inhibitory concentrations of swelling in potassium acetate, it did not inhibit swelling in ammonium phosphate (mediated by the phosphate/H⁺ cotransporter), whereas propranolol and chlorpromazine did, suggesting a more specific effect of quinine on (a) protein(s) involved in the K⁺/H⁺ exchange. Dicyclohexylcarbodiimide (DCCD), which irreversibly inhibits the swelling in potassium acetate, bound to ethanolamine heads; despite this effect, DCCD had no major consequences on the binding of the probes. Consequently, propranolol and chlorpromazine are of no help for characterizing protein(s) catalyzing the K⁺/H⁺ exchange, although their effect on lipids seems to involve limited zones of the inner mitochondrial membrane. Quinine and DCCD, although they also bind to lipids, may inhibit the activity by acting on a limited number of proteins.     

The Calculation of Intracellular Ion Concentrations and Membrane Potential from Cell-attached and Excised Patch Measurements. Cytosolic K+ Concentration and Membrane Potential in Vicia faba Guard Cells

Ion channel activity in cell-attached patch recordings shows channel behavior under more physiological conditions than whole-cell and excised patch measurements. Yet the analysis of cell-attached patch measurements is complicated by the fact that the system is ill defined with respect to the intracellular ion activities and the electrical potential actually experienced by the membrane patch. Therefore, of the several patch-clamp configurations, the information that is obtained from cell-attached patch measurements is the most ambiguous. The present study aims to achieve a better understanding of cell-attached patch measurements. Here we describe a method to calculate the intracellular ion concentration and membrane potential prevailing during cell-attached patch recording. The first step is an analysis of the importance of the input resistance of the intact cell on the cell-attached patch measurement. The second step, and actual calculation, is based on comparison of the single channel conductance and reversal potential in the cell-attached patch and excised patch configurations. The method is demonstrated with measurements of membrane potential and cytosolic K⁺ concentrations in Vicia faba guard cells. The approach described here provides an attractive alternative to the measurement of cytosolic ion concentrations with fluorescent probes or microelectrodes. Received: 3 April 1998/Revised: 6 August 1998