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1.
Summary Leakage of ions (Na+, K+) and phosphorylated metabolites (phosphorylcholine, 2-deoxyglucose 6-phosphate) through membrane lesions in intact cells or in cells modified by pore-forming agent has been studied. Leakage from intact cells isinduced by protons and by divalent cations such as Cu2+, Cd2+ or Zn2+. Leakage from agent-modified cells—or across phospholipid bilayers modified by agent—isprevented by low concentrations of the same cations and by higher concentrations of Ca2+, Mn2+ or Ba2+; Mg2+, dimethonium, spermine, or spermidine are virtually ineffective. The relative efficacy of a particular cation (e.g. Ca2+) depends more on cell type than on the nature of the pore-forming agent. The predominant effect is on binding of cation to specific sites, not on surface charge. Surface charge, on the other hand, does affect leakage from agent-modified cells in that suspension in nonionic media reduces leakage, which can be restored by increasing the ionic strength: univalent (Na+, K+, Rb+, NH 4 + ) and divalent (Mg2+, dimethonium) cations are equally effective; addition of protons or divalent cations such as Zn2+ to this system inhibits leakage. From this and other evidence here presented it is concluded that leakage across membranes is modulated by the presence of endogenous anionic components: when these are in the ionized state, leakage is favored; when unionized (as a result of protonation) or chelated (by binding to divalent cation), leakage is prevented. It is suggested that such groups are exposed at the extracellular face of the plasma membrane.  相似文献   

2.
The uptake of Ca2+ and Sr2+ by the yeast Saccharomyces cerevisiae is energy dependent, and shows a deviation from simple Michaelis-Menten kinetics. A model is discussed that takes into account the effect of the surface potential and the membrane potential on uptake kinetics.The rate of Ca2+ and Sr2+ uptake is influenced by the cell pH and by the medium pH. The inhibition of uptake at low concentrations of Ca2+ and Sr2+ at low pH may be explained by a decrease of the surface potential.The inhibition of Ca2+ and Sr2+ uptake by monovalent cations is independent of the divalent cation concentration. The inhibition shows saturation kinetics, and the concentration of monovalent cation at which half-maximal inhibition is observed, is equal to the affinity constant of this ion for the monovalent cation transport system. The inhibition of divalent cation uptake by monovalent cations appears to be related to depolarization of the cell membrane.Phosphate exerts a dual effect on uptake of divalent cations: and initial inhibition and a secondary stimulation. The inhibition shows saturation kinetics, and the inhibition constant is equal to the affinity constant of phosphate for its transport mechanism. The secondary stimulation can only partly be explained by a decrease of the cell pH, suggesting interaction of intracellular phosphate, or a phosphorylated compound, with the translocation mechanism.  相似文献   

3.
Summary The tonoplast of cells ofChara australis was removed by replacement of the cell sap with a medium containing 5 mM EGTA (ethyleneglycol-bis-(-aminoethyl ether) N, N-tetraacetic acid). Such cells without tonoplast could generate an action potential of rectangular shape. In the present paper characteristics of the action potential were studied under various external ionic conditions.Action potentials could be elicited without refractory period and the peak of the action potential was constant among action potentials.Duration of the action potential decreased under repeated excitations, but recovered after pause. Increase in concentrations of alkali metal cations, Li+, Na+, K+, Rb+ and Cs+, resulted in prolongation of the action potential.At proper concentrations of monovalent cations the membrane potential could stay either at the resting level or at the depolarized level and could be shifted reversibly from the former level to the latter one orvice versa by applying outward or inward current. Further increase in concentrations of monovalent cations resulted in arrest of the membrane potential at the depolirized level. The critical concentrations of the monovalent cations to hold the membrane potential at the depolarized level were about 10 mM irrespective of the cation species.Divalent cations, Ca2+, Mg2+, Sr2+, Ni2+ and Mn2+, added to the bathing medium suppressed the effect of monovalent cations to prolong the action potential.Ca2+ and Mg2+ added to the bathing medium caused repolarization of the plasmalemma which had been depolarized by application of high concentrations of K+ to the bathing medium. The antagonism between monovalent and divalent cations on the state of the plasmalemma ofChara cells was discussed based on the two stable states hypothesis proposed by Tasaki (Tasaki, I. 1968. Nerve Excitation. Charles C. Thomas, Springfield, Illinois).  相似文献   

4.
5.
We have extended the Gouy-Chapman theory of the electrostatic diffuse double layer by considering the finite size of divalent cations in the aqueous phase adjacent to a charged surface. The divalent cations are modeled as either two point charges connected by an infinitely thin, rigid "rod" or two noninteracting point charges connected by an infinitely thin, flexible "string." We use the extended theory to predict the effects of a cation of length 10 A (1 nm) on the zeta and surface potentials of phospholipid bilayer membranes. The predictions of the rod and string models are similar to one another but differ markedly from the predictions of the Gouy-Chapman theory. Specifically, the extended model predicts that a large divalent cation will have a smaller effect on the potential adjacent to a negatively charged bilayer membrane than a point divalent cation, that the magnitude of this discrepancy will decrease as the Debye length increases, and that a large divalent cation will produce a negative zeta potential on a membrane formed from zwitterionic lipids. These predictions agree qualitatively with the experimental results obtained with the large divalent cation hexamethonium. We discuss the biological relevance of our calculations in the context of the interaction of cationic drugs with receptor sites on cell membranes.  相似文献   

6.
The cation exchange properties of cell walls isolated from collard (Bassica oleracea var acephala D.C.) leaves were investigated. Cation sorption on cell walls was described by mass-action expressions of ion exchange, rather than by the traditional Donnan equilibrium. The mass-action expressions enable the selectivity of the wall for one cation over another to be determined unambiguously from ion exchange isotherms. We found that: (a) the cation composition of the wall varied as a function of the solution cation concentration, solution cation composition, and pH in a way predicted by mass action; (b) the affinity of the wall for divalent cations increased as the equivalent fraction of divalent cation on the wall increased, and as the concentration of divalent cations in solution increased; (c) the selectivity of the wall for any metal cation pair was not altered by the concentration of H+ in solution or on the wall; (d) H+ sorption on the wall may be treated as a cation exchange reaction making it possible to calculate the relative affinity of the wall for metal cation pairs from H+-metal (Me) titration curves; and (e) the relative affinity of the wall for the cations we studied was: H+ (K+ ≥ Ca2+) > Mg2+. A cation-exchange model including surface complexes is consistent with observed cation selectivity. We conclude that metal cations interact with the wall to minimize or eliminate long-range electrostatic interactions and suggest that this may be due to the formation of site-specific cation-wall surface complexes.  相似文献   

7.
Summary Specificity of reception on 11 electrolytes in the slime moldPhysarum polycephalum was investigated in the presence of polyvalent cations in media. Membrane potential and motive force of tactic movement were examined with the aid of the double chamber method, and the zeta potential at the membrane surface of the slime mold was measured by electrophoretic mobility. The results obtained are summarized as follows: (1) The presence of polyvalent cations (e.g., Ca2+, Mg2+, Sr2+, Ba2+, La3+, Th4+) in medium led to an increase in threshold concentration,C th , determined from the potential measurements for Na- or Li-salts, and to a decrease inC th for K-, Rb-, or NH4-salts,C th for 11 electrolytes changed discontinuously when the concentration of polyvalent cations in medium exceeded their respective thresholds. (2) TheC th determined from chemotaxis agreed with that from the potential response both in the presence and absence of polyvalent cations. (3) Sequence of selectivity of univalent cations varied extensively in the presence of polyvalent cations. (4) Changes in the zeta potential induced by NaCl reception agreed with those in the membrane potential even in the presence of Ca2+ in medium. (5) TheC th for reception of NaCl changed sharply at about 12 °C in the presence of polyvalent cations, while that for KCl was independent of the temperature.Conformational changes in surface membrane of the slime mold in response to reception of polyvalent cations were then discussed in relation to the discrimination of univalent cations.  相似文献   

8.
Summary The perturbational effects of monovalent and divalent cations on human erythrocyte membranes were analyzed by examining their influence on kinetic and structural characteristics of trinitrobenzenesulfonic acid (TNBS) incorporation into the amino groups of protein and phospholipid structural components. The stimulatory effects of monovalent cations on TNBS incorporation, which were size-independent and attributed to nonspecific membrane alterations resulting from ionic strength factors, contrasted with the more pronounced stimulatory properties of divalent cations which were markedly size-dependent. These stimulatory effects of cations on TNBS incorporation were associated with alterations not only in rate but also in activation energy of incorporation. Changes in activation energy produced by divalent cations paralleled their ability to perturb membrane protein components and probably reflected changes in probe permeation. The rate of TNBS incorporation exhibited a dependence on divalent cation ionic radius which paralleled ion-induced perturbations in the labelling of the membrane amino phospholipid phosphatidylethanolamine. Divalent cations differed both in the relative extent and in the characteristics of protein and phospholipid perturbation. Alkaline earth cations behaved as a rather homogeneous group while Ni++, Co++ and Mn++ constituted a second heterogeneous group. The influence of monovalent and divalent cations on the hemolytic behavior of intact erythrocytes paralleled their effects on TNBS incorporation into isolated membranes rather closely. It is suggested that TNBS incorporation may provide a valuable means of analyzing functionally relevant cation-induced alterations in biological membranes in general.  相似文献   

9.
Summary Experiments were performed to obtain information on: (i) the specific properties of Ca2+ binding and transport in yeast (ii) the relationship between both parameters; (iii) similarities to or differences from other biological systems as measured by the effects of inhibitors; and (iv) the effects of mono and divalent cations, in order to get some insight on the specificity and some characteristics of the mechanism of the transport system for divalent cations in yeast.The results obtained gave some kinetic parameters for a high affinity system involved in the transport of Ca2+ in yeast. These were obtained mainly by considering actual concentrations of Ca2+ in the medium after substracting the amounts bound to the cell. Ak m of 1.9 m and aV max of 1.2 nmol (100 mg·3 min)–1 were calculated.The effects of some inhibitors and other cations on Ca2+ uptake allow one to postulate some independence between binding and transport for this divalent cation.Of the inhibitors tested, only lanthanum seems to be a potent inhibitor of Ca2+ uptake in yeast.The effects of Mg2+ on the uptake of Ca2+ agree with the existence of a single transport system for both divalent cations.The actions of Na+ and K+ on the transport of Ca2+ offer interesting possibilities to study further some of the mechanistic properties of this transport system for divalent cations.  相似文献   

10.
Some properties and mechanism of action of a hemolysin (VMH) produced by an enteropathogenic Vibrio mimicus strain was examined. VMH was heat-labile and inhibited by addition of divalent cations, including Ca2+, Mg2+ and Mn2+. The hemolysis by VMH was inhibited by incubating with gangliosides, suggesting that the ganglioside was the binding site on the erythrocyte membrane for VMH. Existence of a galactose moiety on reducing end of the ganglioside molecule and a sialic acid on the galactose moiety was suggested to be important for the binding of VMH molecule. Colloid osmotic manner of the hemolysis by VMH was demonstrated.  相似文献   

11.
Human blood neutrophil leucocytes and monocytes incubated in the absence of Ca2+ and Mg2+ showed reduced, but still substantial migration into micropore filters towards chemotactic agents, compared with cells migrating in a divalent cation-rich medium. This reduction in migration could be reversed by adding low doses of divalent cation ionophores (X537A or A23187) to the Ca2+- and Mg2+-free medium which suggests that migrating leucocytes in media depleted of extracellular divalent cations can make use of intracellular divalent cations and that the intracellular cation exchange necessary for locomotion is facilitated by the ionophores. At higher doses, the ionophores inhibited locomotion, as did procaine which reduces membrane permeability to cations. Little effect of K+ depletion or of ouabain on leucocyte locomotion was noted.  相似文献   

12.
13.
14.
Philip J. White 《Planta》1993,191(4):541-551
Plasma-membrane vesicles were purified by aqueous-polymer two-phase partitioning of a microsomal membrane fraction from rye (Secale cereale L.) roots and incorporated into planar 1-palmitoyl-2-oleoyl phosphatidylethanolamine bilayers. A high-conductance cation channel (a maxi cation channel) was characterized from single-channel electrical recordings. The channel was incorporated into the bilayer with its cytoplasmic surface facing the trans compartment and voltages were referenced cis with respect to trans. The channel was permeable to both monovalent and divalent cations. The unitary conductance was 451 pS in symmetrical 100 mM KCl and 213 pS in symmetrical 100 mM BaCl2. The permeability ratio PKPBa was 1.002.56. Unitary conductances declined in the order K+Rb+>Cs+>Na+> Li+ (monovalent cations) and Ba2+>Sr2+>Ca2+> Mg2+>Co2+>Mn2+ (divalent cations). The relative permeabilities of monovalent cations mirrored their conductivity sequence, whereas the permeabilities of all divalent cations were similar. The maxi cation channel showed complex kinetics, exhibiting both voltage- and time-dependent inactivation and voltage-dependent gating. The voltage dependence of the kinetics shifted in parallel with changes in the reversal potential of the channel. In symmetrical 100 mM KCl, following a voltage step from zero to the test voltage, the channel inactivated and the active-channel lifetime ( i) shortened exponentially as the test voltage was increased. The channel always opened immediately upon depolarization to zero volts, indicating that inactivation of the channel did not result from the loss of any intrinsic factor. The probability of finding an active channel in the open state (P0) exhibited a bell-shaped relationship with membrane potential. At voltages between -40 and 80 mV, P0 exceeded 0.99, but p0 declined abruptly at more extreme voltages. Under ionic conditions which approximated physiological conditions, in the presence of 100 mM KCl on the trans (cytoplasmic) side and 1 mM KCl plus 2 mM CaCl2 on the cis (extracellular) side, the reversal potential was 15.6 mV and the kinetics approximated those observed in symmetrical 100 mM KCl. Thus, the channel would open upon depolarization of the plasma membrane in vivo. If the channel functioned physiologically as a Ca2+ channel it might be involved in intracellular signalling: the channel could open in response to a variety of environmental, developmental and pathological stimuli which depolarize the plasma membrane, allowing Ca2+ into the cytoplasm and thereby initiating a physiological response.Abbreviations EK Nernst (equilibrium) potential for potassium - Erev zero-current (reversal) potential - I/V current/voltage - c apparent mean lifetime of the activated-channel closed state - i apparent mean lifetime of the activated channel following a voltage step from zero volts - 0 apparent mean lifetime of the activated-channel open state - PE 1-palmitoyl-2-oleoyl phosphatidylethonlamine - P0 probability of finding the activated channel in an open state - TEA+ tetraethylammonium This work was supported by the Agriculture and Food Research Council and by a grant from the Science and Engineering Research Council Membrane Initiative (GR/F 33971) to Prof. E.A.C. MacRobbie (University of Cambridge, UK).  相似文献   

15.
Expression of the light-inducible (lipA) gene in Arthrobacter photogonimos is repressed by Ca2+ at a concentration greater than 0.1 M. Expression of lipA was induced by relatively high concentrations of Zn2+ Ni2+ or Co2+ in cell suspensions, an effect that was blocked by an increase in the concentration of Ca2+ in the medium. Zn2+ and other metals apparently overcame repression by Ca2+ by competing for a cellular binding site. Expression of lipA was also induced when the amount of free Ca2+ was lowered with ethylene-bis (oxyethylenenitrilo)tetraacetic acid (EGTA). Our results show that the lipA gene does not require Zn2+ or other divalent cation for expression and that it is regulated negatively by Ca2+.Accumulation of the mature product of this gene (light-inducible protein, LIP) was minimal in the presence of EGTA. Accumulation increased 10-to 20-fold when divalent cations such as Ca2+, Mn2+, Cu2+ or Zn2+ were added to cell suspensions treated with chelator. These divalent cations, which allowed the protein to achieve a protease-resistant form on the cell surface, could be substituted by protease inhibitors such as antipain, leupeptin or 1,10-phenanthroline. Our data can be explained by a biparous mechanism in which divalent cations regulate both expression of the lipA gene and accumulation of the gene product.Abbreviations LIP light-inducible protein - BAPTA 1,2-bis(o-aminophenoxy)ethanc-N,N,N,N-tetraacetic acid  相似文献   

16.
A calcium sensitive univalent cation channel could be formed by lysotriphosphoinositide on an artificial bilayer membrane made of oxidized cholesterol. The modified membrane was selectively permeable to univalent cations, but was only very sparingly permeable to anions or divalent cations. Selectivity sequence among group IA cations was Rb+ > Cs+ > Na+ > K+ > Li+. The conductance of the membrane was increased up to a value of about 10−2 ohm−1/cm2 with an increase in the concentration of univalent cation, and was drastically depressed by a relatively small increase in the concentration of calcium ion or other divalent cations. The sequence of depressing efficiency among divalent cations was Zn2+ > Cd2+ > Ca2+ > Sr2+ > Mg2+.  相似文献   

17.
The divalent cation requirements of NOS activity in bovine retina homogenate supernatant were investigated. Supernatants were assayed under standard conditions (in mM: EDTA 0.45, Ca2+ 0.25, Mg2+ 4.0). In order to investigate the enzyme's dependence on divalent cations, the tissue homogenate was depleted of di- and trivalent cations by passing it over a cation-exchange column (Chelex 100). Surprisingly, NOS activity was 50-100% higher in this preparation. However, addition of either EDTA (33 M) or EGTA (1 mM) almost fully inhibited NOS activity, suggesting a requirement for residual divalent metal cation(s). Phenanthroline or iminodiacetic acid at low concentrations had little effect on activity, suggesting no requirement for Fe2+, Zn2+ or Cu2+. Ca2+ had a moderate stimulatory effect, with an optimum activity around 0.01 mM. Mg2+ or Mn2+ had little effect at concentrations < 0.25 mM. However, in the presence of EDTA, Mn2+ or Ca2+ markedly stimulated NOS activity with the optimum at 0.1 mM. At high concentrations (> 0.1-0.2 mM), all divalent cations tested (Ba2+, Zn2+, Co2+, Mn2+, Mg2+, Ca2+), as well as La3+, dose-dependently inhibited NOS activity. We propose that retinal NOS requires low concentrations of naturally occurring divalent metal ions, most probably Ca2+, for optimal activity and is inhibited by high di- and trivalent metal concentrations, probably by competition with Ca2+.  相似文献   

18.
19.
Summary Three ionic detergents commonly used in membrane-bound protein isolation and reconstitution experiments, SDS, cholate, and DOC, are shown to act as divalent cation ionophores when incorporated into black lipid membranes made from either oxidized cholesterol or a mixture of phosphatidylcholine and cholesterol (PC/cholesterol=51 mg). At a concentration greater than or equal to 1 m, SDS shows large selectivity differences between cations and anions and among the different cations tested (Ba2+, Ca2+, Sr2+, Mg2+, and Mn2+). Deoxycholate and cholate at concentrations greater than 4×10–4 m and 10–3 m, respectively, also act as divalent cation ionophores. The selectivity sequence measured for these two detergents is evidence for a strong ionic interaction between the divalent cation, and the anionic charged groups on the detergent. In the case of cholate, the conductance depends on the third or fourth power of the cholate concentration and shows a linear dependence on CaCl2 concentration. The conductance for deoxycholate depends on the sixth or seventh power of the DOC concentration and is also linearly dependent on the CaCl2 concentration. In an oxidized cholesterol black lipid membrane in the presence of 5mm CaCl2, small concentrations of LaCl3 (<1 m) inhibit the ionophoric activity of each of the detergents tested. Evidence is presented to show that this inhibitory effect is a nonspecific effect on oxidized cholesterol BLM's, and is not due to a direct effect of La3+ on detergent-mediated transport.  相似文献   

20.
Summary The Ca2+ ionophore X537 A has the characteristics required of a hydrophobic fluorescent probe. The quantum yield of the uncomplexed anion varies from 0.021 in water to 1.0 in dioxane, increasing with decreasing solvent polarity. Complexation with K+, Ca2+ or Ba2+ serves to increase the fluorescence signal insolvents of high polarity. In solvents of low polarity decreases in fluorescence upon complexation have been found. The ionophore X537A binds to dimyristoyl--lecithin membranes with a quantum yield of 0.4, and evidence is given that the ionophore is situated on the membrane surface. The fluorescent signal of X537A on the membrane increases with cation complexation and values are reported for the complexation constants of X537A with several monovalent and divalent cations on the membrane. The use of the fluorescent signal of X537A in the study of the mechanism of cation transport facilitated by this ionophore is discussed.  相似文献   

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