COPPER SORPTION AND RELEASE BY CYCLOTELLA MENEGHINIANA (BACILLARIOPHYCEAE) AND CHLAMYDOMONAS REINHARDTII (CHLOROPHYCEAE)1

Initial Cu⁺⁺ sorption by Cyclotella meneghiniana Kütz. (Cu⁺⁺-sensitive) and Chlamydomonas reinhardtii Dangeard (Cu⁺⁺-resistant) was rapid in the first 5 min of Cu⁺⁺ incubation with little sorption after 2 h. On a cell to cell basis, Cyclotella sorbed ca. five times more Cu⁺⁺ from the medium than Chlamydomonas. In MBL medium with EDTA Cyclotella and Chlamydomonas cells sorbed 21.0 and 4.41 nM Cu⁺⁺/10⁶ cells respectively in 6 h with 0.3 mg Cu⁺⁺/l in the medium. Proportionally similar quantities of Cu⁺⁺ were sorbed when the cells were Cu⁺⁺ incubated in MBL + citrate or filtered lake water. Cleaned cell walls of Cyclotella sorbed little Cu⁺⁺ (1.7 nM/10⁶ cells) as compared to living cells (17.5 nM Cu⁺⁺/10⁶ cells) in 3 h. Therefore, in living Cyclotella most of the Cu⁺⁺ taken up must be absorbed by the protoplasm or perhaps by the organic layer surrounding the silica wall. Cleaned cell walls of Chlamydomonas sorbed 3.5 nM Cu⁺⁺/10⁶ cells and living Chlamydomonas cells sorbed 2.6 nM Cu⁺⁺/10⁶ cells. This indicates that most of the Cu⁺⁺ sorbed by Chlamydomonas cells remained bound to the cell wall and probably did not readily enter into the protoplasm: When placed in Cu⁺⁺ free medium after Cu⁺⁺ incubation, Cyclotella and Chlamydomonas cells released 46 and 59% respectively of the Cu⁺⁺ sorbed.     

Interactions des ions métalliques avec le DNA. IV. Fixation de i'ion cuivrique sur le DNA

The binding of cupric ion (Cu⁺⁺) to DNA was followed by spectrophotometry, melting profiles, and hydrodynamic techniques, in 0. 1M NaClO₄ and at pH 5. 6. A small amount of Cu⁺⁺ is bound specifically to bases (about 1 Cu⁺⁺ per 20 nucleotides), in agreement with polarographic and EPR data. A preferential stabilization of G–C pairs and only a slight increase of the flexibility of the molecule were observed. In 5 × 10^?3M NaClO₄, a higher number of nonhomogeneous binding sites is found by spectrophotometry. It is concluded that at least two types of sites are available for Cu⁺⁺. The first one, where Cu⁺⁺ is chelating N₇ of purines to phosphate, is observed only at low ionic strength and destabilizes the double helix. The second exists mainly at 0, 1M or higher ionic strength. All the sites are identical and could be attributed to two successive guanine residues in the same strand. Similar behavior was found for other divalent cations, e. g., Fe⁺⁺, Mn⁺⁺, and Co⁺⁺.     

Chelation of divalent cations by lomofungin: role in inhibition of nucleic acid synthesis

Lomofungin inhibition of yeast growth and RNA synthesis is prevented by Cu⁺⁺ or Zn⁺⁺ ions which chelate with the antibiotic and prevent its uptake by the cells. EDTA potentiates the inhibition. Mg⁺⁺ ions do not protect $\text{in vivo}$ or against the inhibition of purified bacterial RNA and DNA polymerases. Lomofungin prevents formation of the RNA polymerase. DNA initiation complex, probably by chelation with the firmly bound Zn⁺⁺ of the enzyme.     

Retention of applied Cu++ by soils

Summary The Cu⁺⁺ retaining power of the three soils used in our experiments was found to be of the order: alkali soil > black soil > red soil. The alkali soil retained the applied Cu⁺⁺ in basic copper carbonate and hydroxide forms due to its high carbonate (soluble + insoluble) and high pH values, and the red soil retained the least amount of Cu⁺⁺ because of its low pH value and negligible carbonate content, whilst the black soil, being fairly rich in CaCO₃, organic matter and suitable pH, occupied an intermediate position.When the original samples were treated with H₂O₂, H₂O₂ + HCl or were ignited at 600°C for 1 hour the retention of applied Cu⁺⁺ decreased more or less as a result of destruction of organic matter, carbonate and dehydration of sesquioxides leaving an inert material.Saturation of original soils with H⁺ (by HCl) resulted in lower Cu⁺⁺-retention, whilst the conversion of H-soils to Ca⁺⁺-soils showed a higher Cu⁺⁺-retention but never approached the amount of Cu retained by original soils. This is due to lowering of pH of the samples, removal of carbonates as well as due to antagonistic effect of H⁺-ions. A greater percentage of the Cu⁺⁺ retained by these samples exists in the exchangeable forms in comparison to original soils.It has also been observed that addition of CaCO₃, at the rate of 1 to 2 per cent (to the hydrogen samples) resulted in a precipitation of practically all the applied Cu⁺⁺ and non-existence of exchangeable forms of Cu⁺⁺.     

Dégradation du DNA par H2O2 en présence d'ions Cu++, Fe++ et Fe+++

The mechanism of degradation of calf thymus DNA by H₂O₂ in dark and light, and in the presence of either Cu⁺⁺, Fe⁺⁺, or Fe⁺⁺⁺ ions has been investigated by following the decrease of molecular weight M?_w by light scattering. Both in the dark and in light, the rate of degradation decreases in the following order: Cu⁺⁺>Fe⁺⁺>Fe⁺⁺⁺. In order to exploit quantitatively the variation of M?_w with time, we calculated the probability p(t) of rupture in a double stranded polymer as a function of the occurence at random of both breaks of the “first kind” (single hits) and of the “second kind” (double hits), when there are caused by any degrading agent. The value of p(t) can then be related to M?_w(t) for the present case of a randomly polydisperse sample of DNA molecules. In the dark, and in the presence of Cu⁺⁺ ions, a degradation of the first kind (which takes place through the simultaneous or successive splitting of both strands of DNA at the same level) is the only one so far observed. The number of degradation sites of the first kind is equivalent to the number of bound Cu⁺⁺ ions in inner sites of DNA. A model is set up to explain the successive breaks of the two strands of the DNA molecule through the formation of a complex (DNA site–Cu⁺⁺-H₂O₂) which exhibits peroxidative properties. The comparison of the degradation induced under these conditions in a native and a sonicated DNA, shows that the specific sites of attack of ultrasonic waves are not specific sites of H₂O₂ action in the presence of Cu⁺⁺ ions. In the dark and in the presence of Fe⁺⁺ or Fe⁺⁺⁺ ions, breaks of the first kind and second kind are superimposed, but the last are predominant. This is ascribed to the low binding of iron ions in inner sites of DNA under these conditions. A large increase in degradation rate of the second kind occurred in the presence of light (with or without added metallic ions and) is ascribed to the action of the free radicals HO^· (and HO₂^·) which arise from the photolysis of H₂O₂. These results are discussed in relation to those obtained by the action of ionizing radiations on aqueous solutions of DNA.     

Large scale preparation of rabbit aortic smooth muscle cells for use in calcium uptake studies

Summary Rabbit aortic smooth muscle cells were prepared by enzymatic digestion of the aortic smooth muscle layer. The cells were subcultured up to Passage 22 starting from a cryogenically preserved stock (approximately 10¹⁰cells, Passage 8) and characterized morphologically and for⁴⁵Ca⁺⁺ uptake. Microscopically the cells demonstrated the characteristics of vascular smooth muscle cells.⁴⁵Ca⁺⁺ uptake by the cells plated on tissue culture flasks (25 cm²) was determined at 25°C in physiological salt solution (PSS) containing⁴⁵Ca⁺⁺ in low (5 mM) or high (50mM) KCl concentrations. At the end of the incubation period (0 to 30 min), PSS was aspirated and the cells quickly washed, digested with 0.5N NaOH, and counted for⁴⁵Ca⁺⁺. High K⁺ increased the⁴⁵Ca⁺⁺ uptake by 100% or more compared to the low K⁺ uptake of⁴⁵Ca⁺⁺. This K⁺-induced⁴⁵Ca⁺⁺ uptake was eliminated in osmotically shocked cells, and inhibited by nifedipine, verapamil, and diltiazem, in a dose-dependent manner. The extent of⁴⁵Ca⁺⁺ uptake and the inhibitory activity of nifedipine were retained up to Passage 22. It is concluded that the developed methodology for scaled-up cultures of rabbit aortic smooth muscle cells provides morphologically intact and biochemically functioning cells suitable for calcium channel studies.     

Effect of some metals and related metal-orgaic compounds on ALA-dehydratase activity of corn

Summary The activity of ALA-dehydratase from corn seedlings is affected by Mn⁺⁺, Fe⁺⁺, Pb⁺⁺, Cu⁺⁺, Zn⁺⁺ and Sn⁺⁴ ions, in vivo Mn⁺⁺ and Fe⁺⁺ are ativators while Pb⁺⁺ and Sn⁺⁴ are inhibitors; in vitro Cu⁺⁺ and Zn⁺⁺ are inhibitors. The kinetic parameters (V_max and K_M) support the hypothesis that Mn, Fe, Sn and Pb ions act on the biosynthesis of the enzyme and Zn and Cu ions on the enzyme-substrate affinity. Some related metal-organic compounds interrere in vivo on the ALA-dehydratase activity modifying the kinetic parameters, therefore the enzyme biogenesis and/or enzyme-sustrat affinity are affected.     

Measurement of uptake of chelated and unchelated Ca and Sr from solution culture

Summary The uptake of Ca and Sr by three-week old tomato (Lycopersicon esculentum) plants from solutions containing Ca⁺⁺ and Sr⁺⁺, and chelated Ca and Sr (CaL and SrL) was measured over a two-day period. The solution was double-labelled with Ca⁴⁵ and Sr⁸⁵. Two chelates, EDTA (ethylenediaminetetraacetic acid) and DTPA (diethylenetriaminepentaacetic acid) were used at five chelate-cation ratios. When the Ca and Sr content of the solution was held constant, addition of chelate reduced uptake. The reduction was greater with EDTA than with DTPA.The Ca/Sr ratio of uptake was used to measure the proportion of uptake as the chelated and unchelated species. The Ca⁺⁺/Sr⁺⁺ ratio was different from the CaL/SrL ratio in solution because of the different equilibrium reactions of Ca and Sr with L. Direct uptake of the CaL and SrL was indicated. In solutions where Ca⁺⁺ = CaL, uptake of CaEDTA was 0.47 of uptake of Ca⁺⁺ and uptake of CaDTPA was 0.95 of uptake of Ca⁺⁺.Journal Paper No. 4969. Purdue University Agricultural Experiment Station, Lafayette, Indiana 47907. Contribution from the Department of Agronomy. This research was supported in part by the U.S. Atomic Energy Commission under Contract AT(11-1)-1495.     

Inhibition of photosystem II activity by Cu++ ion. Choice of buffer and reagent is critical

Cupric ion (Cu⁺⁺) inhibits the rate of photosystem II electron transport and the intensity of the variable part of chl a fluorescence in isolated chloroplast thylakoids. The inhibition is markedly dependent on the nature of the buffer used in the assay medium. In MES and HEPES buffers, complete inhibition of photosystem II occurs at 30 M of Cu⁺⁺, while in Tricine no inhibition occurred even at 200 M Cu⁺⁺. In other buffers used (TES, Phosphate, Tris), the efficacy of Cu⁺⁺ inhibition is intermediate. The calculated binding constants are found to correspond to the observed I₅₀ values for the six buffers used. It is concluded that the previous reports on copper inhibition, where buffers have been used indiscriminately should be reconsidered. Certain reagents such as hydroxylamine, ascorbate and diphenyl carbazide, which react with Cu⁺⁺, should be avoided.Abbreviations Chl chlorophyll - DCIP 2,6-dichlorophenol indophenol - DCMU 3-(3,4 dichlorophenyl)-1,1-dimethyl urea - DAD diaminodurene - DPC diphenyl carbazide - Fv variable chl fluorescence - HEPES N-2-hydroxyethyl piperazine sulfonic acid - I ₃₀ inhibitor concentration causing 30% inhibition of Fv - MES 2-(N-morpholino) ethane sulfonic acid - MV Methyl viologen - PS II Photosystem II - PS I Photosystem I - TES N-tris(hydroxymethyl)-methyl-2-amino sulfonic acid - TMPD N,N,N,N-tetramethyl-p-phenylenediamine - Tricine N-tris(hydroxymethyl) ethylglycine - Tris N-tris(hydroxymethyl)amino ethane     

Studies on the Acid-protease of Paecilomyces varioti Bainier TPR-220

The crystalline acid-protease of Paecilomyces varioti Bainier TPR-220 is most active toward casein as substrate, at pH 3.0 and 60°C, and stable at pH 3.0 to 6.0 below 40°C. The enzyme decomposes protein molecules into smaller fragments than pepsin does and is inhibited by p-chloromercuri-benzoate, monoiodoacetate, sodium lauryl sulfate, iodine, potassium permanganate, N-bromosuccinimide, bacitracin, nitrofurylacrylamide, and Hg⁺ ion, but affected neither by metal ion except Hg⁺ ion, nor metal chelating agent, soy bean trypsin inhibitor, potato-protease inhibitior, cysteine, diiso-propylfluorophosphate, cyanogen bromide, and heparin. The presence of Ca⁺⁺, Co⁺⁺, Cu⁺⁺, Mg⁺⁺, Sr⁺⁺, and Zn⁺⁺ ions prevents heat inactivation of the enzyme.     

Impediment to growth and yeast-to-hyphae transition in Candida albicans by copper oxide nanoparticles

Abstract

The effects of two prominent copper oxide nanoparticles (CuO-NP and Cu₂O-NP), with the oxidation state of Cu⁺⁺ (cupric) and Cu⁺ (cuprous), on Candida albicans were evaluated. CuO-NP and Cu₂O-NP were synthesized and characterized by XRD, FESEM, HR-TEM and Zeta potential. At sub-MIC (50?µg ml^?1), both cupric and cuprous oxide NPs prevented yeast-to-hyphae switching and wrinkling behaviour in C. albicans. The mechanism for the antifungal action of the two NPs differed; CuO-NP significantly elicited reactive oxygen species, whereas membrane damage was more pronounced with Cu₂O-NP. Real time PCR analysis revealed that CuO-NP suppressed the morphological switching of yeast-to-hyphae by down-regulating cph1, hst7 and ras1 and by up-regulation of the negative regulator tup1. In comparison, Cu₂O-NP resulted in down-regulation of ras1 and up-regulation of the negative regulators nrg1 and tup1. Between the two NPs, CuO exhibited increased antifungal activity due to its stable oxidation state (Cu⁺⁺) and its smaller dimensions compared with Cu₂O-NP.     

Increased Ca++ uptake by erythrocytes infected with malaria parasites: Evidence for exported proteins and novel inhibitors

Malaria parasites export many proteins into their host erythrocytes and increase membrane permeability to diverse solutes. Although most solutes use a broad‐selectivity channel known as the plasmodial surface anion channel, increased Ca⁺⁺ uptake is mediated by a distinct, poorly characterised mechanism that appears to be essential for the intracellular parasite. Here, we examined infected cell Ca⁺⁺ uptake with a kinetic fluorescence assay and the virulent human pathogen, Plasmodium falciparum. Cell surface labelling with N‐hydroxysulfosuccinimide esters revealed differing effects on transport into infected and uninfected cells, indicating that Ca⁺⁺ uptake at the infected cell surface is mediated by new or altered proteins at the host membrane. Conditional knockdown of PTEX, a translocon for export of parasite proteins into the host cell, significantly reduced infected cell Ca⁺⁺ permeability, suggesting involvement of parasite‐encoded proteins trafficked to the host membrane. A high‐throughput chemical screen identified the first Ca⁺⁺ transport inhibitors active against Plasmodium‐infected cells. These novel chemical scaffolds inhibit both uptake and parasite growth; improved in vitro potency at reduced free [Ca⁺⁺] is consistent with parasite killing specifically via action on one or more Ca⁺⁺ transporters. These inhibitors should provide mechanistic insights into malaria parasite Ca⁺⁺ transport and may be starting points for new antimalarial drugs.     

Über die Wirkung von ADP und einigen Kationen auf die Rotationsströmung in den Wurzelhaaren der Gerste (Hordeum vulgare L.)

Zusammenfassung In getrennten Versuchen wurde die Wirkung von ADP, Ca⁺⁺, Mg⁺⁺, K⁺ und Cu⁺⁺ auf die Rotationsströmung in den Wurzelhaaren der Gerste (Hordetim vulgare L.) untersucht. Das in verschiedenen Konzentrationen fortdauernd verabreichte ADP bedingte eine Stimulation der Plasmaströmung. Die Beschleunigung der Rotationsströmung war der ADP-Konzentration gegenüber umgekehrt proportional (Abb. 3).Von den untersuchten Kationen hatte nur Ca⁺⁺ (1·10^–3 Mol) eine Stimulationswirkung. Diese Stimulationswirkung wird der Aktivierung eines Enzyms bzw. eines kontraktilen Proteins mit ATPase-Eigenschaften zugeschrieben.Die Rolle von ADP und einigen Kationen bei der Stimulation der Rotation wurde dann mit Hilfe einer gemischten Behandlung untersucht. Diese bestand in der gleichzeitigen Verabreichung von ADP (1·10^–6 Mol) und CaCl₂, MgCl₂, KCl (1 · 10^–3 Mol) oder CuCl₂ (1·10^–6 Mol). Es wurde festgestellt, daß Mg⁺⁺ und Ca⁺⁺ eine antagonistische Wirkung ausüben. Ca⁺⁺ hebt die durch ADP induzierte Stimulation auf und reduziert die Rotationsgeschwindigkeit plötzlich bis auf den Kontrollwert. Die Mg⁺⁺-Wirkung bewirkt, nach einer zeitweiligen Beibehaltung der Stimulation, ebenfalls eine Abnahme der Geschwindigkeit. K⁺ hat eine ähnliche Wirkung wie Ca⁺⁺. Cu⁺⁺ beeinträchtigt die ADP-induzierte Stimulation in geringem Maße.Die gleichzeitige Einwirkung von ADP und einigen Kationen erlaubt die Aufstellung folgender Hypothese. Die Rotationsstimulation erfolgt dank dem ATP, das auf Kosten des von außen absorbierten ADP in den Mitochondrien synthetisiert wird. Die zusätzliche ATP-Synthese kann durch gleichzeitige Ca⁺⁺-Behandlung unterbunden werden. NachHanson und Mitarb, sollen Ca⁺⁺ und ADP um ein phosphoryliertes Zwischenprodukt in Kompetition treten, so daß es zu einer Ansammlung von Ca⁺⁺ und P_a in der Zelle kommt. Andererseits könnte teilweise auch die aktive, energieverbrauchende Salzabsorption die Geschwindigkeitsabnahme der Rotation bei gemischter Behandlung erklären.

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The effect of ADP and some cations on rotational streaming in barley (Hordeum vulgare L.) root hairs

Summary The effect of ADP, Ca⁺⁺, Mg⁺⁺, K⁺, and Cu⁺⁺ upon rotational streaming within barley (Hordeum vulgäre L.) root hairs was separately studied. It was shown that various solutions of ADP may stimulate the streaming after continuous treatment. The rate increase of the rotational streaming was inverse proportional to ADP concentration (Fig. 3).From the investigated cations only Ca⁺⁺ (1·10^–3M) caused a stimulation of streaming after continuous treatment. This effect is probably due to enzymic activation of a contractile proteine which has ATPase feature.The role of ADP and of the investigated cations in the stimulation of the rotational streaming was studied by means of mixed treatment. This kind of treatment consists in a simultaneous administration of ADP (1 · 10^–6M) and CaCl₂, MgCl₂, KCl (1 · 10^–3M), or CuCl₂ (1 · 10^–6M) solutions. Ca⁺⁺ and Mg⁺⁺ showed an antagonistic action. Ca⁺⁺ brings about an immediately suppress of ADP induced stimulation. Suddenly the rate of streaming comes back to control. Mg⁺⁺ after a temporary maintaining of stimulation, also causes the lowering of the streaming. The action of K⁺ was very similar to those of Ca⁺⁺. Cu⁺⁺ changes to a little extent the stimulation caused by ADP.The simultaneous action of ADP and of the investigated cations allow us to express the following hypothesis. The stimulation of the rotational streaming after ADP treatment probably is due to ATP synthetized in mitochondria on the account of ADP. The additional synthesis of ATP can be prevented by simultaneous administration of Ca⁺⁺. According toHanson and his coworkers Ca⁺⁺ would compete with ADP for a phosphorylated intermediate product. From a such competition would result the Ca⁺⁺ and P_i accumulation. The active uptake of salts which require energy would also explain the lowering of the rotational streaming rate after the mixed treatment.

     

The kinetics of the renaturation of deoxyribonucleic acid denatured in the presence of copper(II) ions

DNA which has been heat denatured in the presence of Cu⁺⁺ ions can be completely and rapidly renatured by increasing the ionic strength of the solution above a critical value. A kinetic study of this renaturation recation was carried out by following the associated UV absorbance change and also by following the change in free Cu⁺⁺ ion concentration by means of a specific Cu⁺⁺ ion activity electrode. The data obtained could be fitted to first-order kinetics for a considerable extent of the reaction and the rate constant was found to increase with temperature and ionic strength, but to decrease markedly as the bulk viscosity of the solution was increased. At temperatures greater than 5°C the reaction rate depended on the time elapsing between denaturation and the commencement of the renaturation reaction. As there was good agreement between the rate constants obtained by following the decrease in hyperchromism and by following the increase in free Cu⁺⁺ ion concentration, it is concluded that under the conditions employed, the rate of renaturation is determined by the rate of release of Cu⁺⁺ ions from the denatured DNA-Cu⁺⁺ complex.     

Active Uptake of Ca++ and Ca++-Activated Mg++ ATPase in Red Cell Membrane Fragments

Isolated human red blood cell membrane fragments (RBCMF) were found to take up Ca⁺⁺ in the presence of ATP.¹ This ATP-dependent Ca⁺⁺ uptake by RBCMF appears to be the manifestation of an active Ca⁺⁺ transport mechanism in the red cell membrane reported previously (Schatzmann, 1966; Lee and Shin, 1969). The influences of altering experimental conditions on Ca⁺⁺-stimulated Mg⁺⁺ ATPase (Ca⁺⁺ ATPase) and Ca⁺⁺ uptake of RBCMF were studied. It was found that pretreatment of RBCMF at 50°C abolished both Ca⁺⁺ ATPase and Ca⁺⁺ uptake. Pretreatment of RBCMF with phospholipases A and C decreased both Ca⁺⁺ ATPase and Ca⁺⁺ uptake, whereas pretreatment with phospholipase D did not significantly alter either Ca⁺⁺ ATPase or Ca⁺⁺ uptake. Both Ca⁺⁺ ATPase and Ca⁺⁺ uptake had ATP specificity, similar optimum pH's, and optimum incubation temperatures. From these results, it was concluded that Ca⁺⁺ uptake is intimately linked to Ca⁺⁺ ATPase.     

The hypertriglyceridaemia of the cobalt chloride-treated rat: A possible mechanism

The cobalt chloride-treated rat is an animal model of induced hypertriglyceridaemia. Associated with the hyperlipaemia is an increase in hepatic triglyceride and decrease in total body lipid content. Lipoprotein lipase (EC.3.1.1.3), the enzyme responsible for regulation of the rate of uptake of triglyceride by adipose tissue was investigated and its activity shown to be reduced by cobalt treatment. Plasma post-heparin lipoprotein lipase activity was also reduced in the cobalt chloride-treated rat and plasma clearance of exogenous triglyceride was halved. The heavy metal ions, Zn⁺⁺, Cu⁺⁺ and Fe⁺⁺, reduced post-heparin lipoprotein lipase activity. These findings suggest a possible mechanism for production of the hypertriglyceridaemia by cobalt chloride involving a decrease in plasma triglyceride clearance coupled with a possible increase in hepatic triglyceride production.     

Calcium regulation of skeletal myogenesis. I. Cell content critical to myotube formation

Summary Primary cultures of embryonic chick pectoral skeletal muscle were used to study calcium regulation of myoblast fusion to form multinucleated myotubes. Using atomic absorption spectrometry to measure total cellular calcium and the⁴⁵Ca-exchange method to determine free cellular Ca⁺⁺, our data suggest that only the free cellular calcium changes significantly during development under conditions permissive for myotube formation (0.9 mM external Ca⁺⁺). Increases in calcium uptake occurred before and toward the end of the period of fusion with the amount approximating 2 to 4 pmol per cell in mass cultures. If the medium [Ca⁺⁺] is decreased to 0.04 mM, as determined with a calcium electrode, a fusion-block is produced and free cell Ca⁺⁺ decreased 5- to 10-fold. Removal of the fusion-block by increasing medium [Ca⁺⁺] results in a release of the fusion-block and an increase in cellular Ca⁺⁺ to approximately 1 pmol per cell during fusion, and higher thereafter. Cation ionophore A23187 produced transient increases in cellular calcium and stimulated myoblast fusion and the final extent of myotube formation only when added at the onset of culture. Results suggest that transient increased calcium uptake alone is insufficient for fusion because critical cellular content in conjunction with permissive amounts of medium [Ca⁺⁺] must exist. The latter suggests further that cell surface Ca⁺⁺ was also critical.     

Purification and Characterization of Invertase from Lactobacillus reuteri CRL 1100

The invertase of Lactobacillus reuteri CRL 1100 is a glycoprotein composed by a single subunit with a molecular weight of 58 kDa. The enzyme was stable below 45°C over a wide pH range (4.5–7.0) with maximum activity at pH 6.0 and 37°C. The invertase activity was significantly inhibited by bivalent metal ions (Ca⁺⁺, Cu⁺⁺, Cd⁺⁺, and Hg⁺⁺), β-mercaptoethanol, and dithiothreitol and partially improved by ethylenediaminetetraacetic acid. The enzyme was purified 32 times over the crude extract by gel filtration and ion-exchange chromatography with a recovery of 17%. The K _m and V_max values for sucrose were 6.66 mM and 0.028 μmol/min, respectively. An invertase is purified and characterized for the first time in Lactobacillus, and it proved to be a β-fructofuranosidase. Received: 13 August 1999 / Accepted: 15 September 1999     

Synergistic Action of Recombinant α-Amylase and Glucoamylase on the Hydrolysis of Starch Granules

Barley α-amylase 1 mutant (AMY) and Lentinula edodes glucoamylase (GLA) were cloned and expressed in Saccharomyces cerevisiae. The purified recombinant AMY hydrolyzed corn and wheat starch granules, respectively, at rates 1.7 and 2.5 times that of GLA under the same reaction conditions. AMY and GLA synergistically enhanced the rate of hydrolysis by ∼3× for corn and wheat starch granules, compared to the sum of the individual activities. The exo-endo synergism did not change by varying the ratio of the two enzymes when the total concentration was kept constant. A yield of 4% conversion was obtained after 25 min 37°C incubation (1 unit total enzyme, 15 mg raw starch granules, pH 5.3). The temperature stability of the enzyme mixtures was ≤50°C, but the initial rate of hydrolysis continued to increase with higher temperatures. Ca⁺⁺ enhanced the stability of the free enzymes at 50°C incubation. Inhibition was observed with the addition of 10 mM Fe⁺⁺ or Cu⁺⁺, while Mg⁺⁺ and EDTA had lesser effect. Reference to a company and/or products is only for purposes of information and does not imply approval of recommendation of the product to the exclusion of others that may also be suitable. All programs and services of the U.S. Department of Agriculture are offered on a nondiscriminatory basis without regard to race, color, national origin, religion, sex, age, marital status, or handicap.     

Mechanisms for Intracellular Calcium Regulation in Heart : I. Stopped-Flow Measurements of Ca++ Uptake by Cardiac Mitochondria

Initial velocities of energy-dependent Ca⁺⁺ uptake were measured by stopped-flow and dual-wavelength techniques in mitochondria isolated from hearts of rats, guinea pigs, squirrels, pigeons, and frogs. The rate of Ca⁺⁺ uptake by rat heart mitochondria was 0.05 nmol/mg/s at 5 µM Ca⁺⁺ and increased sigmoidally to 8 nmol/mg/s at 200 µM Ca⁺⁺. A Hill plot of the data yields a straight line with slope n of 2, indicating a cooperativity for Ca⁺⁺ transport in cardiac mitochondria. Comparable rates of Ca⁺⁺ uptake and sigmoidal plots were obtained with mitochondria from other mammalian hearts. On the other hand, the rates of Ca⁺⁺ uptake by frog heart mitochondria were higher at any Ca⁺⁺ concentrations. The half-maximal rate of Ca⁺⁺ transport was observed at 30, 60, 72, 87, 92 µM Ca⁺⁺ for cardiac mitochondria from frog, squirrel, pigeon, guinea pig, and rat, respectively. The sigmoidicity and the high apparent K_m render mitochondrial Ca⁺⁺ uptake slow below 10 µM. At these concentrations the rate of Ca⁺⁺ uptake by cardiac mitochondria in vitro and the amount of mitochondria present in the heart are not consistent with the amount of Ca⁺⁺ to be sequestered in vivo during heart relaxation. Therefore, it appears that, at least in mammalian hearts, the energy-linked transport of Ca⁺⁺ by mitochondria is inadequate for regulating the beat-to-beat Ca⁺⁺ cycle. The results obtained and the proposed cooperativity for mitochondrial Ca⁺⁺ uptake are discussed in terms of physiological regulation of intracellular Ca⁺⁺ homeostasis in cardiac cells.