Effect of lipid alkyl chain perturbations on the assembly of bacteriophage PM2

The lipid-containing bacteriophage PM2 can produce infectious virus in cultures infected at temperatures up to 31.5 °C, but not at 34 °C. Its host, Pseudomonas BAL-31, grows at 34 °C and cultures infected at that temperature undergo lysis. Sucrose-gradient analysis shows that 34 °C lysates contain no PM2-like particles. Temperature-shift experiments establish that the thermally sensitive process is late in infection when virus assembly is taking place.Adamantanone, a small hydrophobic molecule that perturbs membrane hydrocarbon zones prevents the production of infective virus. Concentrations which prevent virus production have no effect on host-cell growth or stability of mature virions. Adamantanone exerts its effects late in the infectious cycle, and lysates made in its presence contain no PM2-like particles. These experiments, carried out at 25 °C, indicate that adamantanone prevents the assembly of stable PM2 virus.Spin-label studies suggest that the lipid alkyl chains of the host-cell membrane are in an “ordered” state at temperatures below about 33 °C and undergo a transition to a “disordered” state above that temperature. Furthermore, the addition of adamantanone perturbs the hydrocarbon zones, producing a greater degree of disorder even below 25 °C. Our findings suggest that the cell membrane can function and grow with the lipid alkyl chains in either the “ordered” or “disordered” state, but that the “ordered” state must be maintained for PM2 assembly to occur.     

Effects of growth conditions on exopolysaccharide production by Cyanospira capsulata

Batch cultures of Cyanospira capsulata, a heterocystous cyanobacterium possessing a thick polysaccharidic capsule, were characterized by increasing viscosity owing to the continuous release of a soluble polysaccharide (EPS) into the culture medium. Both capsulated trichomes and solubilized EPS contributed to the flow properties of whole cultures. A typical pseudoplastic behaviour, the more marked the more aged were the cultures, was evidenced.The production of EPS was investigated under different growth conditions by changing some nutritional and physical parameters known to affect the synthesis of exopolysaccharides in algae and cyanobacteria. Among the factors tested (Ca²⁺, Mg²⁺ or PO₄⁻⁴ deficiencies, salinity and pH) only Mg²⁺ shortage caused a significant enhancement of the EPS production. Under continuous illumination in open ponds, the EPS productivity of batch cultures on standard mineral medium was about 5·8 g m⁻² day⁻¹, whereas under Mg²⁺ deficiency with a consequent increase of the cultures' viscosity     

The effect of ATP on calcium efflux in dialyzed barnacle muscle fibres

Calcium efflux has been studied in barnacle muscle fibres under internal dialysis conditions. Prolonged dialysis of these fibres, with a medium free of ATP and containing 2 mM cyanide and 1 mM iodoacetate, causes the ATP in the perfusion effluent to fall to less than 20 μM. The mean calcium efflux from fibres dialyzed with EGTA buffered solution containing 0.3 μM ionized Ca and no ATP is 0.6 pmol · cm⁻² · s⁻¹. A two-fold stimulation of the calcium efflux is observed when ATP is added to fibres previously dialyzed with an ATP-free medium. Withdrawal of Na⁺ and Ca²⁺ from the external medium causes a marked drop in the Ca²⁺ efflux in the presence of internal ATP.     

Effect of lipid alkyl chain perturbations on the assembly of bacteriophage PM2.

The lipid-containing bacteriophage PM2 can produce infectious virus in cultures infected at temperatures up to 31.5 degrees C, but not at 34 degrees C. Its host, Pseudomonas BAL-31, grows at 34 degrees C and cultures infected at that temperature undergo lysis. Sucrose-gradient analysis shows that 34 degrees C lysates contain no PM2-like particles. Temperature-shift experiments establish that the thermally sensitive process is late in infection when virus assembly is taking place. Adamantanone, a small hydrophobic molecule that perturbs membrane hydrocarbon zones, prevents the production of infective virus. Concentrations which prevent virus production have no effect on host-cell growth or stability of mature virions. Adamantanone exerts its effects late in the infectious cycle, and lysates amde in its presence contain no PM2-like particles. These experiments, carried out at 25 degrees C, indicate that adamantanone prevents the assembly of stable PM2 virus. Spin-label studies suggest that the lipid alkyl chains of the host-cell membrane are in an "ordered" state at temperatures below about 33 degrees C and undergo a transition to a "disordered" state above that temperature. Furthermore, the addition of adamantanone perturbs the hydrocarbon zones, producing a greater degree of disorder even below 25 degrees C. Our findings suggest that the cell membrane can function and grow with the lipid alkyl chains in either the "ordered" or "disordered" state, but that the "ordered" state must be maintanined for PM2 assembly to occur.     

Calcium regulation in wild populations of a freshwater cartilaginous fish, the lake sturgeon Acipenser fulvescens

Lake sturgeon, Acipenser fulvescens, are one of a few species of cartilaginous fishes that complete their life cycle entirely in freshwater. Sturgeons maintain very low concentrations of circulating calcium (Ca²⁺) compared with other vertebrates, and therefore, face unique challenges in regard to Ca²⁺ regulation, which are likely to be magnified during vitellogenic stages of the reproductive cycle. In the present study, Ca²⁺ concentrations and associated hormones of female and male lake sturgeon were examined in two wild populations, and were related to reproductive stage. In both populations, free, bound and total Ca²⁺ were low, peaking in mid-late vitellogenic females. Internal Ca²⁺ and phosphate (PO₄³⁻) concentrations were inversely related to environmental concentrations, suggesting that these ions are preferentially retained and that mechanisms for mobilization are up-regulated under diminished environmental concentrations. Plasma 17β-estradiol, 11-ketotestosterone and testosterone, peaked in mid-late vitellogenic females, while the androgens peaked in spawning males. Urine Ca²⁺ was more tightly regulated than other divalent ions and decreased in spawning fish. Therefore, the increases in free plasma Ca²⁺, the very low circulating concentrations of free and total Ca²⁺, and the increase in PO₄³⁻ and bound Ca²⁺ in low Ca²⁺ environments indicate unique adaptations to Ca²⁺ regulation in the lake sturgeon.     

Ajmalicine production in methyl jasmonate-induced Catharanthus roseus cell cultures depends on Ca2+ level

Cytosolic Ca²⁺ and jasmonate mediate signals that induce defense responses in plants. In this study, the interaction between Ca²⁺ and methyl jasmonate (MJ) in modulating defense responses was investigated by monitoring ajmalicine production in Catharanthus roseus suspension cultures. C. roseus suspensions were treated with nine combinations of CaCl₂ (3, 23, and 43 mM) and MJ (0, 10, and 100 μM) on day 6 of growth. Increased Ca²⁺ influx through the addition of extracellular CaCl₂ suppressed ajmalicine production in MJ-induced cultures. The highest ajmalicine production (4.75 mg/l) was observed when cells were treated with a low level of calcium (3 mM) combined with a high level of MJ (100 μM). In the presence of 3 mM CaCl₂ in the medium, the addition of Ca²⁺ chelator EGTA (1, 2.5, and 5 mM) or Ca²⁺ channel blocker verapamil (1, 10, and 50 μM) to MJ-induced (100 μM) cultures on day 6 also inhibited ajmalicine production at higher levels of the Ca²⁺ inhibitors. Hence, ajmalicine production in MJ-induced C. roseus cultures depended on the intracellular Ca²⁺ concentration and a low extracellular Ca²⁺ concentration (3 mM) enhanced MJ-induced ajmalicine production.     

Cold-induced cytosolic free calcium ion concentration changes in wheat

Relatively little is known about changes in the cytosolic free calcium ion concentration ([Ca²⁺]_c) in monocotyledonous plants. Therefore, we produced transgenic winter wheat lines stably expressing the calcium-sensitive photoprotein aequorin constitutively in the cytosol. [Ca²⁺]_c was detected in vivo by luminometry, and [Ca²⁺]_c elevations were imaged at video rate. Experiments with the transgenic seedlings focused on potential changes in [Ca²⁺]_c during cold exposure. Temperature-induced changes in [Ca²⁺]_c were found to be more dependent on the change in temperature (dT dt⁻¹) than on the absolute value of temperature. [Ca²⁺]_c increased only at cooling rates higher than 8°C min⁻¹, indicating that an overall cellular [Ca²⁺]_c increase is of minor relevance as a signal for cold acclimation in wheat under ecological conditions. The results are discussed with regard to the so-called ‘calcium signature hypothesis’.     

Transforming NRK cells with avian sarcoma virus reduces the extracellular Ca requirement without affecting the calcicalmodulin requirement for the G1/S transition

NRK rat cells infected with a transformation-defective, temperature-sensitive (ts) mutant of the avian sarcoma virus could not proliferate in Ca²⁺-deficient medium at a nonpermissive temperature (40 °C) that inactivated the viral pp60^v-scr-transforming product and rendered the cells phenotypically untransformed. However, these arrested cells were stimulated to initiate DNA replication with little or no delay while still in the Ca²⁺-deficient medium, either by adding Ca²⁺ or calmodulin at 40 °C or by reducing the temperature to 36 °C which restored the transformed phenotype by rapidly reactivating pp60^v-src. The G1/S transition triggered by restoring the transformed phenotype was suppressed by three different anticalmodulin drugs (R24571, trifluoperazine, W7). The suppression by one of these drugs, trifluoperazine, was overcome by adding calmodulin. Thus, neoplastic transformation by the avian sarcoma virus sharply reduces the extracellular Ca²⁺ requirement for the initiation of DNA replication without bypassing a calcical-modulin-dependent mechanism also needed for the G1/S transition.     

Transport and control of Ca by pigeon erythrocytes. II. Evidence against a simple feedback control of cell Ca and evidence for the involvement of more than one pool

Cells were subjected to a range of ⁴⁵Ca²⁺ influx loads with A23187. We measured cell ⁴⁵Ca²⁺ with time and A23187 dose, and the apparent ⁴⁵Ca²⁺ influxes (≡“J(in,app)”) at Ca²⁺ steady state. We also measured endogeneous exchangeable and total cell Ca²⁺, which were 50 and 17–220 μM respectively. The effects of A23187 and Ca²⁺ on cell ATP, swelling, net Cl⁻ permeability, and cell morphology were measured. These were modest and do not affect our conclusions.J(in,app) 3 × 10⁻⁴ [A23187]^2.9·[Ca²⁺(o)]μmoles/l·min with 92–552 μM [Ca²⁺(o)] (≡ external Ca²⁺ concentration) and 0–7 μM A23187. J(in,app) was increased an order of magnitude by vanadate and is probably much less than the true influx. The least unlikely explanation found for the high [A23187] exponent, 2.9, was that most of the Ca²⁺ crossing the membrane is expelled by the pump before it can move deeper into the cell.Calcium pumping increased rapidly in response to increased influx, but the steady state cell ⁴⁵Ca²⁺ was approximately proportional to J(in,app) rather than approximately constant between 10 and 120 μmoles/l·min with 184 μM [Ca²⁺(o)]. This is not the result expected from a simple feedback mechanism.At high A23187 doses the pump appears fully activated resulting in a linear relation between cell/medium ⁴⁵Ca²⁺ and [A23187]⁻². From the plot we calculated α≡free/total exchangeable Ca²⁺ = 0.38 ± 0.08 (n = 3) and a maximum pump rate, “Pmax” = 78 μmole/l·min. Pmax is underestimated insofar as J(in,app) is less than the true influx.     

Characterization of a vasoactive intestinal peptide-sensitive adenylate cyclase in rat intestinal epithelial cell membranes

A vasoactive intestinal peptide-sensitive adenylate cyclase in intestinal epithelial cell membranes was characterized. Stimulation of adenylate cyclase activity was a function of vasoactive intestinal peptide concentration over a range of 1 · 10⁻¹⁰−1 · 10⁻⁷ M and was increased six-times by a maximally stimulating concentration of vasoactive intestinal peptide. Half-maximal stimulation was observed with 4.1 ± 0.7 nM vasoactive intestinal peptide. Fluoride ion stimulated adenylate cyclase activity to a higher extent than did vasoactive intestinal peptide. Under standard assay conditions, basal, vasoactive inteetinal peptide- and fluoride-stimulated adenylate cyclase activities were proportional to time of incubation up to 15 min and to membrane concentration up to 60 μg protein per assay. The vasoactive intestinal peptide-sensitive enzyme required 5–10 mM Mg²⁺ and was inhibited by 1 · 10⁻⁵ M Ca²⁺. At sufficiently high concentrations, both ATP (3 mM) and Mg²⁺ (40 mM) inhibited the enzyme.Secretin also stimulated the adenylate cyclase activity from intestinal epithelial cell membranes but its effectiveness was 1/1000 that of vasoactive intestinal peptide. Prostaglandins E₁ and E₂ at 1 · 10⁻⁵ M induced a two-fold increase of cyclic AMP production. Vasoactive intestinal peptide was the most potent stimulator of adenylate cyclase activity, suggesting an important physiological role of this peptide in the cyclic AMP-dependent regulation of the intestinal epithelial cell function.     

Spontaneous inactivation of the Ca-sensitive K channels of human red cells at high intracellular Ca activity

Ionophore A23187-mediated Ca²⁺-induced oscillations in the conductance of the Ca²⁺-sensitive K⁺ channels of human red cells were monitored with ion specific electrodes. The membrane potential was continuously reflected in CCCP-mediated pH changes in the buffer-free medium, changes in extracellular K⁺ activity were followed with a K⁺-selective electrode, and changes in the intracellular concentration of ionized calcium were calculated on the basis of cellular ⁴⁵Ca content. An increased cellular ⁴⁵Ca content at the successive minima of the oscillations where the K⁺ channels are closed indicates that the activation of the channels might be a (dCa²⁺/dt)-sensitive process and that accommodation to enhanced levels of intracellular free calcium may occur. An incipient inactivation of the K⁺ channels at intracellular ionized calcium levels of about 10 μM and a concurrent membrane potential of about −65 mV was observed. At a membrane potential of about −70 mV and an intracellular concentration of about 2·10⁻⁴M no inactivation of K⁺ channels took place. Inactivation of the K⁺ channels is suggested to be a compound function of the intracellular level of free calcium and the membrane potential. The observed sharp peak values in cellular ⁴⁵Ca content support the notion that a necessary component of the oscillatory system is a Ca²⁺ pump operating with a significant delay in the activation/inactivation process in response to changes in cellular concentration of ionized calcium.     

Specific cation modulation of anion transport across the human erythrocyte membrane

The specific modulation by three cations, Ca²⁺, Mg²⁺, and tetracaine of the equilibrium exchange of SO₄²⁻ across the erythrocyte membrane was investigated. While external calcium had no effect on SO₄²⁻ exchange, internal calcium, and external calcium in the presence of 10 μM A23187 were found to be potent inhibitors of the exchange reaction. The apparent inhibition constants (K₁) for Ca²⁺ were calculated to be 6.1 μM and 5 μM for the above two conditions, respectively.Unlike Ca²⁺, Mg²⁺ was shown to be a weak activator of SO₄²⁻ exchange with an apparent dissociation constant of 3.6 μM. Competition experiments demonstrated that the Ca²⁺ and Mg²⁺ sites associated with anion transport are distinct and noninteracting.Tetracaine, a cation at neutral pH, was also found to be an inhibitor of SO₄²⁻ exchange with an apparent K₁ of 0.8 mM. Although tetracaine was observed to displace calcium from non-specific sites on the erythrocyte membrane, it showed no effect on the apparent inhibition constant of Ca²⁺ for SO₄²⁻ exchange. Thus, the Ca²⁺ and tetracaine sites also appear to be independent. The difficulty of situating three mutually independent sites on a single subunit protein, i.e., band 3, is considered.Using the experimental data obtained from five individuals, the concentration of free calcium in the red cell cytoplasm was calculated to range from 0.2 to 0.7 μM. This concentration was sufficient to reduce SO₄²⁻ exchange only 3–8%. It was concluded that calcium inhibition of anion exchange, and, hence, impairment of CO₂ transport, may be physiologically significant only in senescent cells and in certain types of anemia where calcium concentrations are significantly increased.     

Redox modulation of calcium entry and release of intracellular calcium by thimerosal in GH4C1 pituitary cells

In the present work we have investigated the actions of the oxidizing sulfhydryl reagent thimerosal on different mechanisms which regulate intracellular free Ca²⁺ concentration ([Ca²⁺]_i) in GH₄C₁ pituitary cells. In intact Fura-2 loaded cells, low concentrations of thimerosal potentiated the spike phase of the TRH-induced (thyrotropin-releasing hormone) rise in [Ca²⁺]_i, whereas high thimerosal concentrations inhibited it. The effect of thimerosal on the plateau phase was always inhibitory.The effect of thimerosal on the IP₃-induced calcium release (IICR) was studied in permeabilized cells using the Ca²⁺ indicator Fluo-3. A low concentration of thimerosal (10 μM) stimulated IICR: the Ca²⁺ release induced by 300 nM inositol-1,4,5-trisphosphate (IP₃) was enhanced in cells treated with thimerosal for 1 or 6 min (67 ± 11 nM and 34 ± 5 nM, respectively) as compared to control cells (17 ± 2 nM). On the other hand, a high concentration of thimerosal (100 μ inhibited IICR: when IP₃ (10 μM) was added after a 5 min preincubation with thimerosal, the IP₃-induced rise in [Ca²⁺]_i (46 ± 14 nM) was 57% smaller as compared with that seen in control cells (106 ± 10 nM).The effect of thimerosal on the voltage-operated Ca ²⁺ channels (VOCCs) was studied by depolarizing intact Fura-2 loaded cells by addition of 20 mM K⁺ to the cuvette. The depolarization-evoked increase in [Ca²⁺]_i was inhibited in a dose-dependent manner by thimerosal. Direct evidence for an inhibitory effect of thimerosal on VOCCs was obtained by using the whole-cell configuration of the patch-clamp technique: thimerosal (100 μM) potently inhibited the Ba²⁺ currents through VOCCs.In addition, our results indicated that thimerosal inhibited the caffeine-induced increase in [Ca²⁺]_i, and activated a capacitative Ca²⁺ entry pathway. The actions of thimerosal were apparently due to its oxidizing activity because the effects were mostly reversed by the thiol-reducing agent dithiothreitol (DTT).We conclude that, in GH₄C₁ pituitary cells, the mobilization of intracellular calcium and the different Ca²⁺ entry pathways are sensitive to redox modulation.     

Resonance energy transfer studies of the mechanisms of microclustering of lentil lectin membrane receptors on HeLa cells

The association and dissociation mechanisms of lectin membrane receptor microclustering on HeLa cells have been studied by measuring resonance energy transfer between fluoresceinated and rhodaminated lentil lectin. Compounds known to affect membrane receptor mobility, such as Ca²⁺ ions, methylamine, cytochalasin D and nocodazole, did not modify the association kinetics nor the maximal energy transfer values at 4 and 37 °C. Dissociation of the membrane receptor microclusters was followed by measuring the temporal decrease in energy transfer values at 4 °C after preincubation for different time intervals at 37 °C. The rate of dissociation of the lectin receptors decreased in the presence of Ca²⁺ ions (10⁻³ M) and after cross-linking with anti-lectin antibodies. An increase was observed in the presence of cytochalasin D (10⁻⁶ M) and, to a lesser extent, of methylamine (10⁻² M). When cytochalasin D and methylamine were combined at subliminal concentrations, a partial synergistic effect was observed. Nocodazole (10⁻⁶ M) had no effect. The results suggest that the association of lectin membrane receptors in microclusters is mediated only by physicochemical parameters. Ca²⁺ ions, cytochalasin D (microfilaments) and methylamine (transglutaminase)-sensitive components appear, however, to play an important role in the stabilization of the receptor microclusters.     

The role of calcium channels in anthocyanin production in callus cultures of Daucus carota

The involvement of Ca²⁺ ATPases in anthocyanin accumulation in callus cultures of Daucus carota was investigated under the influence of calcium and calcium channel modulators. Ionophore (I) treatment enhanced callus growth and anthocyanin accumulation. Increasing the amount of calcium applied to cultures enhanced the anthocyanin level. Ionophore treatment influenced the enhancement of Ca²⁺ATPase and endogenous titres of PAs. Addition of the calcium channel blocker verapamil or the calmodulin antagonist chlorpromazine to the A23187 (ionophore) treated cells caused a reduction in anthocyanin levels. Channel blockers reduced Ca²⁺ATPase activity, which was restored by ionophore treatment, showing the importance of calcium in anthocyanin production. Higher ethylene levels were also found in treatment with ionophore or 2X calcium. Thus the influence of ionophore in anthocyanin production and its inhibition by calcium channel modulators suggests that calcium plays an important role in the production of anthocyanin by carrot callus cultures.     

Studies on photosynthetic oxygen-evolving complex by means of Fourier transform infrared spectroscopy: calcium and chloride cofactors

Structural roles of functional Ca²⁺ and Cl⁻ ions in photosynthetic oxygen-evolving complexes (OEC) were studied using low- (640–350 cm⁻¹) and mid- (1800–1200 cm⁻¹) frequency S₂/S₁ Fourier transform infrared (FTIR) difference spectroscopy. Studies using highly active Photosystem (PS) II core particles from spinach enabled the detection of subtle spectral changes. Ca²⁺-depleted and Ca²⁺-reconstituted particles produced very similar mid- and low-frequency spectra. The mid-frequency spectrum was not affected by reconstitution with ⁴⁴Ca isotope. In contrast, Sr²⁺-substituted particles showed unique spectral changes in the low-frequency Mn–O–Mn mode at 606 cm⁻¹ as well as in the mid-frequency carboxylate stretching modes. The mid-frequency spectrum of Cl⁻-depleted OEC exhibited marked changes in the carboxylate stretching modes and the suppression of protein modes compared with that of Cl⁻-reconstituted OEC. However, Cl⁻-depletion did not exert significant effects on the low-frequency spectrum.     

Pathways of glucose catabolism and the origin and metabolism of pyruvate during calcium-induced conidiation ofPenicillium notatum

Experiments examined the metabolic basis of Ca²⁺-induced conidiation during the 12-h period following the addition of Ca²⁺ to 40-h vegetative cultures ofPenicillium notatum. Vegetative mycelium had enzymic capacity for three routes of glucose catabolism viz. the Embden-Meyerhof-Parnas (EMP), pentose phosphate (PP) and the Entner-Doudoroff (ED) sequences. Inhibitors of EMP enzymes restricted vegetative growth more than that associated with conidiation whilst arsenate augmented the limited capacity of lower levels of Ca²⁺ to promote conidiation. Arsenite (5.6 mmol · 1^–1) partially blocked the metabolism of pyruvate and caused its accumulation, which was also promoted by Ca²⁺ alone. Arsenite did not induce conidiation in vegetative cultures but when combined with Ca²⁺ it enhanced conidiation. Radiorespirometry and the analysis of accumulated pyruvate, promoted by arsenite, indicated that approximately 54% of carbon was catabolized via combined EMP/ED routes and 46% by the PP pathway and subsequently via a weakly functional TCA cycle. Calcium-induced cultures swung to a primarily ED (25%) and PP (75%) based catabolism with low substrate level phosphorylation, including a facility for a non-phosphorylative ED route, and further diminished oxidative TCA capacity. Pyruvate accumulation in Ca²⁺-induced cultures coincided with the decline in activity of pyruvate dehydrogenase and a reduced capacity for gluconeogenesis, with other enzymes of pyruvate metabolism showing altered activities. These changes in enzyme activities, pyruvate accumulation and its subsequent metabolism were related to growth rate and the developmental cycle, and are discussed in conjunction with the regulatory role of calcium.     

The effect of temperature, Ca, Mg and Ni ions on the swimming speed of C. reinhardii determined by quasi-elastic light scattering

Quasi-elastic light scattering was used to measure the motility of Chlamydomonas reinhardii (wild type) under varying environments of temperature and ionic concentration (Ca²⁺, Mg²⁺, Ni²⁺). The results obtained agree with the results obtained by other techniques where comparison was available. The advantage of this method is that it provides these results in minutes. In many cases this rapid analysis can be used to follow the change in motility which arises after a chemical or physical perturbation. The speed of the cell, and the average flagellar force, was found to increase as the temperature was varied between 6 and 40 °C. The cell seemed to be irreversibly damaged at temperatures above 40 °C. The speed of the cell was found to be very dependent on [Ca²⁺]. The cell's speed slowed very significantly as the concentration of Ca²⁺ was reduced and was also found to be relatively independent of the Mg²⁺ concentration between 10⁻³ and 10⁻¹⁰ M. The addition of Ni²⁺ to the cells' environment resulted in the cell speed increasing significantly over the short term, with the long-term effect being a net decrease in the cells' speed.     

Antagonistic effect of calcium, zinc and selenium against cadmium induced chromosomal aberrations and micronuclei in root cells of Hordeum vulgare

The antagonistic effect of calcium (Ca²⁺), zinc (Zn²⁺) and selenium (Se⁴⁺) at different concentrations (10⁻²–10⁻⁶ M) against cadmium (Cd²⁺) induced genotoxic effects in root cells of Hordeum vulgare were studied. The results showed that 10⁻³–10⁻⁵ M could induce chromosomal aberrations and micronuclei formation. But in the treatment with 10⁻²–10⁻⁶ M of Ca²⁺, Zn²⁺ and Se⁴⁺ together with Cd²⁺ (10⁻³–10⁻⁵ M), respectively, the frequencies of chromosomal aberrations and micronuclei effectively decreased after 48 h of treatment. The treatment with 10⁻⁴–10⁻⁶ M of Ca²⁺ together with 10⁻⁴–10⁻⁵ M Cd²⁺, 10⁻⁶ M of Zn²⁺ together with 10⁻⁵ M Cd²⁺ and 10⁻⁶ M of Se⁴⁺ together with 10⁻⁵ M Cd²⁺ suggested rather obvious antagonistic effects. The order of the antagonisms of Ca²⁺, Se⁴⁺ and Zn²⁺ against Cd²⁺ toxicity was Ca²⁺>Se⁴⁺>Zn²⁺. The degree of antagonisms of Ca²⁺, Se⁴⁺ and Zn²⁺ against Cd²⁺ related to their concentration ratio.     

A novel method of transfection of marine bacteria Pseudoalteromonas espejiana with deoxyribonucleic acid of bacteriophage PM2

DNA of bacteriophage PM2 is a convenient test object for studying DNA-damaging genotoxic agents. The extent of DNA damage can be estimated by the ability of damaged DNA for transfection of host cells, marine bacterium Pseudoalteromonas espejiana (Pae), str. BAL-31. The efficiency of transfection of Pae lines maintained for long periods without freezing was found to be very low upon the use of a widely accepted transfection method developed by van der Schans et al. (1971). Such cultures grown in a medium with 10 mM Ca²⁺ standard for Pae contained cell aggregates and exopolymer material. Pae was found to be capable of growing in a medium without the calcium supplement in the presence of chelator EGTA (low-calcium medium, LCM). After growth in LCM, cells did not aggregate, cultures lacked the activity of nuclease BAL, and transfection efficiency of cells grown in LCM drastically increased. Based on these results, a novel procedure of transfection with an efficiency of 2 × 10⁴?2 × 10⁵ infectious centers per microgram of PM2 DNA was developed.