A calorimetric investigation of the heats of binding of Mg ++ to poly A, to poly U, and to their complexes

The heats of binding of Mg⁺⁺ ions to poly A, poly U, and to their complexes, in the presence of Na⁺ ions, have been measurd calorimetrically. In all cases the heat, ΔH(θ), exhibitis a distinct dependence on the extent of binding, θ, and in the cases of poly A and poly U also on the Na⁺ concentration. The values of ΔH(θ) range from +2 to +3 kcal/mole of Mg⁺⁺ bound at θ = 0 to 1.3 kcal/mole at θ = 0.5 except in poly A where at θ = 0 ΔH(θ) = ?2 to ?3 kcal/mole. This is interpreted as being due to a facilitation of base stacking by the binding of Mg⁺⁺. The extent of facilitation is consistent with current estimates of base stacking. A similar effect but of much smaller magnitude is believed to obtain in poly A poly U. An interpretation of the dependence of ΔH(θ) on θ in terms of simple electrostatic interactions, but neglecting solvent effects, was attempted and found to be inadequate.     

The binding of Mg++ ions to polyadenylate, polyuridylate, and their complexes

The binding of Mg ⁺⁺ to polyadenylate (poly A), Polyuridylate(poly U), and their complexes, poly (A + U) and poly (A + 2U), was studied by means of a technique in which the dye eriochrome black T is used to measure the concentration of free Mg^?. The apparent binding constant K_X = [MgN]/[Mg⁺⁺][N], N = site for Mg⁺⁺ binding (the phosphate group of the nucleotide), was found to decrease rapidly as the extent of binding increased and, at low extents of binding, as the concentration of Na^? increased in poly A, poly (A + U), and poly (A + 2U), and somewhat less so in poly U. K_x is generally in the range 10⁴ > K_X > 10². The cause of these dependences is apparently, primarily, the displacement of Na⁺ by Mg⁺⁺ in poly U and poly (A + U) on the basis of the similarity of extents of displacement measured in this work and those measured potentiometrically. was calculated and was found to approach zero as the concentration of Na⁺ increased. In poly U, poly (A + U), and poly (A + 2U) at low ΔH′ v.H. > 0, about + 2 kcal/“mole.” In poly A, also at low salt, ΔH′ v.H. ≈ ?4 kcal/“mol” for the initial binding of Mg⁺⁺, and increases to +2 kcal/“mol” at saturation. This enthalpic variation probably accounts for the anticooperativity in the binding of Mg⁺⁺ not ascribable to the displacement of Na⁺⁺.     

Further Studies on the Roles of Sodium and Potassium in the Generation of the Electro-Olfactogram : Effects of mono-, di-, and trivalent cations

In the negative EOG-generating process a cation which can substitute for Na⁺ was sought among the monovalent ions, Li⁺, Rb⁺, Cs⁺, NH₄⁺, and TEA⁺, the divalent ions, Mg⁺⁺, Ca⁺⁺, Sr⁺⁺, Ba⁺⁺, Zn⁺⁺, Cd⁺⁺, Mn⁺⁺, Co⁺⁺, and Ni⁺⁺, and the trivalent ions, Al⁺⁺⁺ and Fe⁺⁺⁺. In Ringer solutions in which Na⁺ was replaced by one of these cations the negative EOG's decreased in amplitude and could not maintain the original amplitudes. In K⁺-Ringer solution in which Na⁺ was replaced by K⁺, the negative EOG's reversed their polarity. Recovery of these reversed potentials was examined in modified Ringer solutions in which Na⁺ was replaced by one of the above cations. Complete recovery was found only in the normal Ringer solution. Thus, it was clarified that Na⁺ plays an irreplaceable role in the generation of the negative EOG's. The sieve hypothesis which was valid for the positive EOG-generating membrane or IPSP was not found applicable in any form to the negative EOG-generating membrane. The reversal of the negative EOG's found in K⁺- , Rb⁺- , and Ba⁺⁺-Ringer solutions was attributed to the exit of the internal K⁺. It is, however, not known whether or not Cl^- permeability increases in these Na⁺-free solutions and contributes to the generation of the reversed EOG's.     

Characteristics of lead adsorption byUndaria pinnatifida

Summary We reportUndaria pinnatifida as a potential biosorbent for lead removal.U. pinnatifida exhibited approximately 350 mg of lead uptake capacity per gram of dry biomass within a pII range of 3 to 4. The major cellular component ofU. pinnatifida in lead binding was thought as alginic acid existing in the cell wall.U. pinnatifida adsorbed lead ion selectively over other alkaline metal ions such as K⁺, Na⁺, Mg⁺⁺ and Ca⁺⁺. It was confirmed by using instrumental analysis including EDX and XPS thatU. pinnatifida adsorbed lead ions on the surface of itself.This research was supported by Bioprocess Engineering Research Center and Kyunggi Chemical Industrial Company.     

Conformational changes of membrane-bound (Na+−K+)-ATPase as revealed by antibody inhibition

Summary As different structural states of the (Na⁺–K⁺)-ATPase (EC 3.6.1.3) may lead to a changed reactivity to antibodies, the influence of Na⁺, K⁺, Mg⁺⁺, P_i and ATP on the reaction between highly purified (Na⁺–K⁺)-ATPase and antibodies directed against the membrane-bound enzyme was measured. The antigen antibody reaction was registered by measuring the antibody inhibition of (Na⁺–K⁺)-ATPase activity.In themembrane-bound but not in thesolubilized enzyme four different degrees of antibody inhibition were obtained at equilibrium of the antigen antibody reaction if different combinations of Na⁺, K⁺, Mg⁺⁺ and ATP were present during the incubation with the antibodies. Corresponding to the different degrees of inhibition, different rates of enzyme inhibition were measured. (a) The smallest degree of enzyme inhibition was obtained when (i) only Mg⁺⁺, (ii) Mg⁺⁺ and Na⁺ or (iii) Mg⁺⁺ and K⁺ were present during the antigen antibody reaction. (b) The enzyme activity was inhibited more strongly if Na⁺, Mg⁺⁺ and ATP were present together. (c) It was inhibited even more if only (i) Na⁺, (ii) K⁺, (iii) ATP or both (iv) ATP and Na⁺, (v) ATP and K⁺, (vi) ATP and Mg⁺⁺, or if (vii) no ATP and activating ions were present. (d) The highest degree of antibody inhibition was obtained if Mg⁺⁺, ATP and K⁺ were present together.In the presence of Mg⁺⁺ plus ADP and in the presence of Mg⁺⁺ plus the ATP analog adenylyl (--methylene) diphosphonate, Na⁺ and K⁺ did not influence the degree of antibody inhibition as they did in the presence of Mg⁺⁺ plus ATP. It was further found that the degree of antibody inhibition in the presence of Mg⁺⁺, ATP and K⁺ was affected by the sequence in which K⁺ and ATP were added to the enzyme prior to the addition of the antibodies.It is suggested that by antibody inhibition different conformations of the (Na⁺–K⁺)-ATPase could be detected. These conformations may possibly not occur in the solubilized enzyme and therefore do not seem to be necessarily linked to the intermediary steps of the ATP hydrolysis of the enzyme. The structural changes which are induced by Na⁺ and K⁺ in the presence of Mg⁺⁺ plus ATP are proposed to occur during the Na⁺–K⁺ transport.     

Interaction of magnesium ions with poly A and poly U

The binding of Mg⁺⁺ to poly A and poly U has been measured quantitatively by using the metallochromic indicator calmagite. The method is described in detail. It is shown that there is electrostatic interaction between the binding sites, viz., the phosphate groups, and the intrinsic association constant, for the specific binding can be determined. After extrapolation to zero ionic strength we find that, for the binding of Mg⁺⁺ to poly A, k_int = 4 × 10⁴ and for that, to poly U, k_int = 3 × 10⁴. The intrinsic enthalpy of association is negative. The effect of Mg⁺⁺ on the secondary structure of poly A and poly U has been studied by measuring the ultraviolet absorbance, optical rotatory dispersion and viscosity as a function of the amount of added Mg⁺⁺ ions. It was found that Mg⁺⁺ promotes the formation of a more ordered secondary structure by neutralizing or screening the negative charges. It is concluded from the absorbance measurements that for poly A at pH ? 7 and for poly U at pH >xs 9 this ordering involves stacking of the bases. Likewise, in solutions of UDP with a pH around 10, base stacking occurs on addition of Mg⁺⁺.     

Muscle: A Three Phase System : The partition of divalent ions across the membrane

The partition of sulfate, Ca⁺⁺, and Mg⁺⁺ across the membrane of the sartorius muscle has been studied, and the effect of various concentrations of these ions in the Ringer solution on the cellular level of Na⁺, K⁺, and Cl^- has been determined. The level of the three divalent ions in toad plasma and muscle in vivo has been assayed. Muscle was found to contain an almost undetectable amount of inorganic sulfate. Increases in the external level of these ions brought about increases in intracellular content, calculated from the found extracellular space as determined with radioiodinated serum albumin or inulin. Less of the cell water is available to sulfate than to Cl^-, and the Mg⁺⁺ space is less than the Na⁺ space. An amount of muscle water similar to that found for Li⁺ and I^- appears to be available to these divalent ions. Sulfate efflux from the cell was extremely rapid, and it was not found possible to differentiate kinetically between intra- and extracellular material. These results are consistent with the theory of a three phase system, assuming the muscle to consist of an extracellular phase and two intracellular phases. Mg⁺⁺ and Ca⁺⁺ are adsorbed onto the ordered phase, and increments in cellular content found on raising the external level are assumed to occur in the free intracellular phase.     

3H-mepyramine binding to histamine H1-receptors in guinea pig lung: Characteristics and regulation by ions

The antogonist [³H]-mepyramine is used to label histamine H₁-receptors in guinea pig lung. Scatchard analysis reveals two classes of binding sites. Monovalent cations decrease steady-state binding (Na⁺ > Li⁺ > K⁺), while divalent cations (Mg⁺⁺, Ca⁺⁺, Mn⁺⁺, Ba⁺⁺) exhibit a biphasic curve, increasing binding at low concentrations and decreasing it at higher levels. Na⁺ decreases both affinity and number of binding sites. Dissociation curve shows two components, and Na⁺ accelerates the rate of dissociation of the slower component. GTP does not affect the binding of the antagonist ³H-Mepyramine.     

Nature of the transport ATPase-digitalis complex. VI. Purification of and ouabain binding to a highly active cardiac Na+, K+-ATPase

A Na⁺,K⁺-ATPase has been isolated from canine heart with a specific activity as high as 200 μmoles of inorganic phosphate/mg protein/hour. Activity is not due to simple detergent activation since specific ouabain binding (i.e., [Mg⁺⁺,Na⁺,ATP] or [Mg⁺⁺,P_i]-ligand dependent) ranged from 200–450 pmoles/mg protein. Specific ouabain binding activities are up to ten times greater than heretofore reported.     

Early changes of 'leak flux' and the cation content of lymphocytes by concanavalin A.

The leak fluxes of Na⁺, K⁺, Mg⁺⁺ and Ca⁺⁺ in mouse thymocytes are increased by Concavaline A (Con A), within minutes after mitogen addition. The intracellular Mg⁺⁺ and K⁺ concentrations were decreased and the Na⁺ and Ca⁺⁺ contents were increased by Con A in mouse thymocytes and spleen cells.     

Thermodynamic and kinetic parameters of ion condensation to polynucleotides: Outer sphere complex formed by Mg++ ions

The coupling of ion binding to the single strand helix—coil transition in poly (A) and poly(C) is used to obtain information about both processes by ion titration and field-jump relaxation methods. Characterisation of the field-jump relaxation in poly(C) at various concentrations of monovalent ions leads to the evaluation of a stability constant K = 71 M^?1 for the ion binding to the polymer. The rate constant of helix formation is found to be 1.3 × 10⁷ s^?1, whereas the dissociation rate is 1.0 × 10⁶ s^?1. Similar data are presented for poly (A) and poly (dA).The interaction of Mg⁺⁺ and Ca⁺⁺ with poly (A) and poly (C) is measured by a titration method using the polymer absorbance for the indication of binding. The data can be represented by a model with independent binding “sites”. The stability constants increase with decreasing salt concentration from 2.7 × 10⁴ M^?1 at medium ionic strengths up to 2.7 × 10⁷ M^?1 at low ionic strength. The number of ions bound per nucleotide residue is in the range 0.2 to 0.3. Relaxation time constants associated with Mg⁺⁺ binding are characterised over a broad range of Mg⁺⁺ concentrations from 5 μM to 500 μM. The observed concentration dependence supports the conclusion on the number of binding places inferred from equilibrium titrations. The rate of Mg⁺⁺ and Ca⁺⁺ association to the polymer is close to the limit of diffusion control (k_R = 1 × 10¹⁰ to 2 × 10¹⁰ M^?1 s^?1). This high rate demonstrates that Mg⁺⁺ and Ca⁺⁺ ions do not form inner-sphere complexes with the polynucleotides. Apparently the distance between two adjacent phosphates is too large for a simultaneous site binding of Mg⁺⁺ or Ca⁺⁺, and inner sphere complexation at a single phosphate seems to be too weak. The data support the view that the ions like Mg⁺⁺ and Ca⁺⁺ surround the polynucleotides in the form of a mobile ion cloud without site binding.     

On the selective adsorption of cations in the cell wall of the green algaValonia utricularis

The selective adsorption of the cations Na⁺, K⁺, Mg⁺⁺ and Ca⁺⁺ by the cell wall of the Mediterranean algaValonia utricularis (Siphonocladales, Chlorophyceae) from sea water of 40 %. S was investigated by extraction of cell-wall preparations, eluted before in 1.1 mol methanol (adjusted to pH 8) with 0.1 n formic acid in a Soxhlet apparatus. Na⁺ and K⁺ were determined by flame photometry, Mg⁺⁺ and Ca⁺⁺ by complexometric titration with EDTA. From calculation of the dry weight:fresh weight ratios and the chloride determinations in the eluates, the Donnan free-space fraction of the total cell-wall volume was calculated to about 35 %, and the analytical results of the cation concentrations in the extracts expressed asVal cm^–3 DFS. This calculation is based on the assumption that the acidic groups of the noncellulosic matrix material, carrying negative charges by dissociation at the reaction of sea water (ph about 8) are responsible for the adsorption of cations by exhibition of a Donnan effect. The results obtained show clearly that besides the divalent cations Mg⁺⁺ and Ca⁺⁺, which according to the physico-chemical laws of the Donnan distribution must be relatively accumulated to the second power of the monovalent ones, potassium is also enriched by selective adsorption, and the K⁺:Na⁺ ratio increased significantly compared with that in sea water. This seems to indicate that the strength of attraction between the cations and the negative sites is dependent on the radii of the ions and the state of hydration and/or polarisation of the ions and binding sites.     

Binding of cations by microsomes from rabbit skeletal muscle

Fragmented sarcoplasmic reticulum and transverse tubular system, as isolated in the microsomal fraction from rabbit skeletal muscle, bind H⁺, Na⁺, K⁺, Ca⁺⁺, Mg⁺⁺, and Zn⁺⁺. The binding depends on a cation exchange type of interaction between these cations and the chemical components of the membranous systems of the muscle cell. The monovalent and divalent cations exchange quantitatively for each other at the binding sites on an equivalent basis. Scatchard plots of the H⁺ binding data indicate that the binding groups can be resolved into two major components in terms of their pK values. Component 1 has a pK value of 6.6 and a capacity for H⁺ binding of 2.2 meq/g N . The second component has a much higher H⁺ binding capacity (7–8 meq/g N ), but its pK value, 3.4, is non-physiological. The binding of cations other than H⁺ at a neutral pH occurs at the binding sites making up component 1. The order of affinity of the cations for the microsome binding sites is H⁺ » Zn⁺⁺ > Ca⁺⁺ > Mg⁺⁺ » Na⁺ = K⁺ as reflected by the apparent respective pK_M values: 6.6, 5.2, 4.7, 4.2, 1.3, 1.3. Caffeine, which causes contracture and potentiates the twitch of skeletal muscle, does not interfere with the binding of Ca⁺⁺ by the microsomes at neutral pH.     

23Na NMR investigation of the interaction between DNA and divalent metallic cations

The aim of this study is to follow the thermodynamic behaviour of Na⁺ ions, acting as natural counterions of DNA, in the presence of divalent metal ions, by using the²³Na NMR technique. With the help of the²³Na entropy of fluctuations concept introduced by Lenk, we propose the following decreasing sequence: Mg⁺⁺, Zn⁺⁺, Cd⁺⁺, Mn⁺⁺, and Cu⁺⁺, for the magnitude of divalent metal ions interactions with DNA phosphate sites.     

Effect of different water salinity levels and organic matter application on the composition of water soluble and exchangeable bases in a brackishwater fish pond soil

Behaviour of different water soluble and exchangeable bases in a brackishwater fish pond soil was studied under four levels of water salinity, in combination with and without organic matter application. The results showed average content of water soluble bases to increase with increase in water salinity. The bases were dominated by Na⁺ followed by Mg⁺⁺, Ca⁺⁺ and K⁺ in decreasing order. SAR values of water increased with increase in water salinity and decreased slightly on organic matter treatment.Total content of exchangeable bases in soils was fairly high and was dominated by Ca⁺⁺ and Mg⁺⁺, followed by Na⁺ and K⁺ respectively. Amount of exchangeable Ca⁺⁺ + Mg⁺⁺ decreased while that of Na⁺ increased with increase in water salinity levels. Amount of exchangeable K⁺ did not show any appreciable change. Application of organic matter tended to increase the exchangeable Ca⁺⁺ + Mg⁺⁺ content and decrease the amount of exchangeable Na⁺ in the soil, while exchangeable K⁺ content remained practically unaffected due to organic matter treatment.Formed part of a Ph.D. thesis submitted to Bidhan Chandra Agricultural University, India in 1978Formed part of a Ph.D. thesis submitted to Bidhan Chandra Agricultural University, India in 1978     

Isolation and Partial Characterization of an Acetylcholine Receptor-Enriched Membrane Fraction from Skeletal Muscle

Abstract

A procedure for purification of the bungarotoxin-binding fraction of sarcolemma from rabbit skeletal muscle is described. Muscle is homogenized in 0.25M sucrose without high salt extraction and membrane fractions separated initially by differential centrifugation procedures. An ultracentrifugation pellet enriched in cell surface and sarcoplasmic reticulum markers is further fractionated on a dextran gradient (density = 1.0 to 1.09). Two fractions are identified as sarcolemma according to high specific activities for lactoperoxidaseiodination, Na⁺, K⁺-ATPase and α-bungarotoxin-binding. No Ca⁺⁺, Mg⁺⁺-ATPase activity is found in these fractions. A third fraction, the dextran gradient pellet, is enriched in Ca⁺⁺, Mg⁺⁺-ATPase activity and lactoperoxidase iodinatable material and characterized by low bungarotoxin binding. This fraction represents a mixture of sarcoplasmic reticulum and transverse tubules with some sarcolemma contamination.     

In-vitro-studies on the influence of cations, neurotransmitters and tubocurarine on calcium-ganglioside-interactions.

The influence of K⁺, Na⁺, Mg⁺⁺, Li⁺, a serotonin, acetylcholine and tubocurarine on calcium-ganglioside-interactions was studied by way of equilibrium dialysis using ⁴⁵Ca as tracer. Experiments were carried out at 22 °C and 4 °C, respectively. The concentrations of the substances were in the range of physiologically relevant conditions. Cations caused a release of Ca⁺⁺ from calcium-ganglioside-complexes in the sequence of their molar efficiency: Mg⁺⁺ ≈ Li⁺ > K⁺ ≈ Na⁺. Tubocurarine, serotonin and acetylcholine also affected calcium-ganglioside-interactions. Ca⁺⁺ was displaced from ganglioside most effectively by tubocurarine, followed by serotonin, whereas acetylcholine competed considerably more weakly.     

Response of sugarcane to different types of salt stress

Summary Due to climatic conditions and prevailing water regime the yield and sucrose recovery in sugarcane are high in South Western India. However, excessive irrigation, poor drainage and luxuriant use of fertilizers have resulted in conversion of large fertile areas into saline lands. The salinity is due to the excess of Na⁺, Ca⁺⁺, Mg⁺⁺, SO₄ ^– and Cl^– ions. Individual salts of NaCl, Na₂SO₄, MgCl₂ and MgSO₄ were employed in culture experiments to study salt stress effect on sugarcane variety Co 740. It was observed that sulphate salinity was more toxic to sugarcane than the chloride one. Sulphate salts caused more inhibition of growth, chlorophyll synthesis, PEPCase activity, decreased the uptake of K⁺ and Ca⁺⁺ ions but stimulated nitrate reductase. The stress did not result in proline accumulation in the sugarcane cultivar Co 740. The degree of toxicity of different ions in decreasing order in sugarcane cultivar Co 740 is SO₄ ^–>Na⁺>Cl^–>Mg⁺⁺.     

The mitochondrial transporter of ascorbic acid functions with high affinity in the presence of low millimolar concentrations of sodium and in the absence of calcium and magnesium

We recently reported that U937 cell mitochondria express a functional Na⁺-dependent ascorbic acid (AA) transporter recognised by anti-SVCT2 antibodies. The present study confirms and extends these observations by showing that this transporter is characterised by a Km and a pH-dependence comparable with that reported for the plasma membrane SVCT2. In isolated mitochondria, Na⁺ increased AA transport rate in a cooperative manner, revealed by a sigmoid curve and a Hill coefficient of 2, as also observed in intact Raw 264.7 cells (uniquely expressing SVCT2). There was however a striking difference on the Na⁺ concentrations necessary to reach saturation, i.e., 1 or 100 mM for the mitochondrial and plasma membrane transporters, respectively. Furthermore the mitochondrial, unlike the plasma membrane, transporter was fully active also in the absence of added Ca⁺⁺ and/or Mg⁺⁺.Taken together, the results presented in this study indicate that the U937 cell mitochondrial transporter of AA, because of its very low requirement for Na⁺ and independence for Ca⁺⁺ and Mg⁺⁺, displays kinetic characteristics surprisingly similar with those of the plasma membrane SVCT2.     

Studies on the Proteolytic Enzymes of Thermophilic Streptomyces

Proteolytic enzymes derived from thermophilic streptomyces sp. strain 1689 were purified and some properties were studied. A 8-fold purification was obtained from the culture supernatant by ammonium sulfate fractionation, acetone precipitation, and chromatography on CM-Sephadex. Two proteinases of almost identical properties were fractionated on CM-Sephadex chromatography. The purified preparations appeared to be homogeneous on ultracentrifugation. The optimum pH for proteolytic activity on casein was found to be pH 10.6~10.8. The stability was considerably increased by the addition of Ca⁺⁺, and the proteinases exhibited d relatively high thermal stability. Enzyme activity was inhibited by oxidizing agents, PCMB, potato inhibitor, DFP, and heavy metal ions. Na⁺, K⁺, Mg⁺⁺, and Fe⁺⁺ showed an activating effect.