Zinc as a co-factor for an enzyme involved in exsheathment of Haemonchus contortus

The activity of concentrated exsheathing fluid of Haemonchus contortus against isolated sheaths was not inhibited by ethylenediamine tetra-acetic acid (EDTA), 10^?2 M, even when the concentrations of Mg and Mn were < 4 × 10^?4 M and < 0·9 × 10^?6 M respectively. Purified or diluted solutions of exsheathing fluid, even in the presence of Mg²⁺, 10^?3 M, were inhibited. Leucine aminopeptidase (LAP) in exsheathing fluid was active even at concentrations of Mg < 1·3 × 10^?5M. Concentrated solutions were partially inhibited by EDTA, 10^?2 M, at low concentrations of Mg; inhibition was increased in diluted and purified preparations.1,10-phenanthroline (Ophen) strongly inhibited exsheathing activity (Zn < 1 × 10^?6 M). When Zn²⁺, 10^?3 M was added, the inhibition was abolished. The hydrolysis of l-leucinamide was greatly increased in the presence of Ophen, 10^?4 M; this effect was abolished by adding Zn²⁺, 10^?3 M.It is suggested that exsheathing fluid from at least some ‘strains’ of H. contortus contains a Zn metallo-enzyme, probably LAP, which is involved in the process of exsheathment.     

An ultramicro method for analysis of lithium and other biologically important cations

A new method for Li⁺ analysis by flameless atomic absorption spectroscopy is several orders of magnitude more sensitive than previous methods. Li⁺ quantities as small as 1·10^?12 mol, or Li⁺ concentrations as low as 1·10^?8 M, can be determined with a coefficient of variation of 2–4%. The same technique can determine approx. 1·10^?14 mol of Ca²⁺ and Mg²⁺, and approx. 1·10^?13 mol of Na⁺ and K⁺.     

Effect of dilute solutions of biologically active substances on cell membranes

The article presents data on changes in physicochemical properties of different biological membranes (plasmatic, microsomal, synaptosomes) under the action of biologically active substances, which are different in their chemical structure and the mechanism of action (natural and synthetic antioxidants, thyrotropin - releasing hormone, phorbol esters), in the wide range of concentrations (10^?22?10^?3 M). Dose dependences of the effect of biologically active substances on the activity of membrane-bound enzymes, lipid peroxidation, the structural state of the various regions of the lipid bilayer of membranes have been obtained and analyzed in terms of their formal generality of polymodality, number and position of the maxima, a sign change of the effect. An attempt to explain the mechanism of each of the observed peaks in these curves has been made. The maximum in the range of relatively high “physiological” concentrations (10^?3–10^?7 M) is associated with introduction of biologically active substances into biomembranes. In this study maxima in the range of ultra-low doses (10^?11–10^?16 M) and “apparent” concentrations (10^?18 M), where the presence of biologically active substance molecule in a reaction volume is probabilistic in nature, are explained by physicochemical properties of diluted biologically active substances solutions. This conclusion is based on our data on the changes in IR spectra of aqueous solutions of biologically active substances and the results obtained by academician A.I. Konovalov et al. concerning the physicochemical properties of dilute solutions of biologically active substances (conductivity, surface tension, charge), due to the formation of so-called “nanoassociates” from biologically active substance molecule and numerous number of water molecules. The nanoassociates formation and biological effect disappear if the low concentration solutions are kept in a special shielded permalloy container protecting its contents from external electromagnetic field. Thus, nanoassociates are the material carriers of the unique ability of the ultra-low doses of biologically active substances to exhibit biological effects.     

Effect of hormonal and neuronal agents on adenylate cyclase from smooth muscle of the gastric antrum

Smooth muscle adenylate cyclase of a membrane preparation of canine gastric antrum has been characterized, and the effect of hormonal and neuronal agents examined. The enzyme is active in the presence of Mg²⁺ or Mn²⁺, but is inhibited by Ca²⁺. The K_m is 0.5 mM ATP, similar to the K_m of skeletal muscle adenylate cyclase. The enzyme is activated by isoproterenol but not norepinephrine, consistent with a β₂-catecholamine receptor-adenylate cyclase interaction. Secretin activates the enzyme in concentrations as low as 1 · 10^?11 M, while glucagon was effective only at 1 · 10^?6 M. Prostaglandin E₁ and E₂ have a biphasic effect with activation of adenylate cyclase at 1 · 10^?5 M and a small but significant inhibition of enzyme activity at 1 · 10^?11 M.     

The effects of exogenous ABA applied to maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.) roots on plant responses to chilling stress

This work aimed to discuss the effects of exogenous abscisic acid (ABA) on the root growth regulation of maize seedlings under chilling stress. The roots of the maize cultivar Zhengdan 958 were irrigated with ABA (10^?7, 10^?6, 10^?5 and 10^?4 M) at the third true leaf stage under chilling duration (0, 2, 4, 6, and 8 days). The biomass, the phenylalanine ammonia lyase (PAL), and polyphenol oxidase (PPO) enzyme activities, total phenolic and flavonoid contents, the ferric reducing ability of plasma (FRAP) antioxidant capacity, and 2,2-azinobis (3-ethlbenzothiazo-line-6-sulfonic acid) diammonium salt radical (ABTS^·+) scavenging capacity of the roots of maize seedlings were measured after the treatment. The results showed that appropriate concentrations of exogenous ABA effectively enhanced root biomass, increased PAL and PPO enzyme activities, and significantly increased total phenolic contents and flavonoid contents. Moreover, the ABA markedly improved the FRAP antioxidant capacity and ABTS^·+ scavenging capacity under low-temperature stress. These results indicate that ABA-treated maize seedlings are resistant to chilling stress and that the optimum concentration of ABA is 10^?5 M. Exogenous applications of ABA have a concentration effect in alleviating chilling stress, in which low concentrations have a promoting effect and high concentrations have an inhibiting effect.     

Vicia graminea lectin binding to human M and N erythrocytes

The mode of binding of Vicia graminea¹²⁵I-labelled lectin to human M and N erythrocytes at 4°C has been investigated. The labelled lectin retained the full activity of native lectin. Lectin association at 4°C was characterized by a $\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ of 3 to 5 min, reaching steady-state within 15 min. Incubation of cells for 15 min at 4°C with increasing concentrations of Vicia graminea¹²⁵I-labelled lectin showed that saturation binding occurred. Scatchard analysis of equilibrium data determined over a wide range of lectin concentrations yielded a curvilinear plot with an upward concave slope; this representation indicated that there was not a single homogeneous class of noninteracting binding sites. This result could indicate two or more independent classes of binding sites or one class of interacting sites exhibiting negative cooperativity. Since unlabelled lectin, which at the concentration used, rapidly binds to available receptors, did not affect the dissociation rate of the labelled lectin and since identical Scatchard plots were found using native and formaldehyde-fixed erythrocytes we conclude that there are two classes of independent Vicia graminea binding sites on human erythrocytes. Computer analysis of the Scatchard plots gave high- and low-affinity constant (7.07±1.1) · 10⁷ M^?1 and (0.2±0.01) · 10⁷ M^?1, respectively, for N erythrocytes and (1.13±0.18) · 10⁷ M^?1 and (0.24±0.01) · 10⁷ M^?1, respectively for the M cells. N erythrocytes were estimated to have 0.085 · 10⁵ high-affinity and 2.1 · 10⁵ low-affinity sites and M erythrocytes, 0.011 · 10⁵ high affinity and 0.13 · 10⁵ low-affinity sites. N cells therefore have 10-times as many sites as M cells. Studies of the dissociation of ¹²⁵I-labelled lectin from N and M cells in the presence of unlabelled lectin gave dissociation rate constants of 51 · 10^?4 s^?1 and 1.97 · 10^?4 s^?1 for the high- and low-affinity sites of N cells and 13 · 10^?4 s^?1 and 1.6 · 10^?4 s^?1 for the high- and low-affinitym sites of M cells, indicating that the binding of Vicia graminea lectin to human erythrocytes is reversible.     

Calcium transport by rabbit skeletal muscle microsomes (“fragmented sarcoplasmic reticulum”)

Ca²⁺ binding by skeletal muscle microsomes in 5 mM ATP exhibited saturation kinetics in the range of Ca²⁺ concentrations between 3 · 10^?8 and 10^?5 M. Approximately 140 nmoles binding sites per mg protein were found. These had a Ca²⁺ binding constant of approximately 4.5 · 10⁶ M^?1 with half saturation at 2.2 · 10^?7 M Ca²⁺. In the presence of oxalate, much larger amounts of Ca²⁺ (approx. 6 μmoles/mg protein) were taken up by the microsomes (Ca²⁺ uptake), but the rate of Ca²⁺ uptake increased linearly with [Ca²⁺] when ionized Ca²⁺ concentrations were below 3 · 10^?6 M. At Ca²⁺ concentrations above 3 · 10^?6, Ca²⁺ uptake was inhibited. Double reciprocal plots of the Ca²⁺ dependence of the initial rates of Ca²⁺ uptake in the concentration range between 3 · 10^?7 M and 10^?5 M, unlike those of Ca²⁺ binding, did not demonstrate saturation kinetics, but could be interpreted as representing a non-saturable system with inhibition at higher Ca²⁺ concentrations. In view of these differences, and because Ca²⁺-binding sites were almost fully saturated at 10^?6 M Ca²⁺, whereas Ca²⁺ uptake rate increased linearly with increasing [Ca²⁺] to approximately 3 · 10^?6 M, the Ca²⁺-binding sites are not shown kinetically to participate in oxalate-dependent Ca²⁺ uptake.     

Interactions of cardiac glycosides with cultured cardiac cells: II. Biochemical and electron microscopic studies on the effects of ouabain on muscle and non-muscle cells

Electron microscopic and biochemical studies revealed a salient difference in the response to toxic doses of ouabain by cultured cardiac muscle and non-muscle cells from neonatal rats. Progressive cellular injury in myocytes incubated with 1 · 10^?4–1 · 10^?3 M ouabain ultimately leads to swelling and necrosis. The morphological damage in myocytes was accompanied by a drastic decrease in ¹⁴CO₂ formation from ¹⁴C-labeled stearate or acetate but not glucose. Neither morphological nor biochemical impairments were observed in non-muscle cells. The interaction between ouabain and the cultured cells, using therapeutic doses of ouabain (i.e., <1 · 10^?7 M), was characterized. Two binding sites were described in both classes of cells, one site is a saturable K⁺-sensitive site whereas the other is non-saturable and K⁺-insensitive. The complexes formed between the sarcolemma receptor(s) and ouabain, at low concentrations of the drug (e.g., 7.52 · 10^?9 M), had K_d values of 8.9 · 10^?8 and 2.3 · 10^?8 M for muscle and non-muscle cells, respectively. The formation and dissociation of the complexes were affected by temperature and potassium ions.     

Uptake of glycine and release of primary amines by the polychaete Nereis virens (Sars) and the mud snail Hydrobia neglecta muus

Uptake of glycine and release of primary amines by the polychaete Nereis virens (Sars) and the mud snail Hydrobia neglecta Muus was investigated. In a flow system, Nereis virens had a net influx of glycine of 32 to 39 nmol·g^?1 fresh wt·h from a 5-μM solution of glycine. Simultaneously, an efflux of primary amines of 14 nmol·g^?1·h^?1 was measured. The experiments indicated that glycine uptake and release of primary amines are two independent processes. Glycine was absorved by Hydrobia neglecta from 50-μM solutions at an influx of 175 nmol·g^?1 organic wt·h^?1, and simultaneously, there was an independent efflux of 25 nmol primary amine·g^?1·h^?1. In the experiments, released primary amines from both species increased the ambient concentration of primary amines, but after various periods of time these concentrations apparently stabilized. Finally, the significance of micro-organisms in amino-acid uptake experiments is considered.     

Determination of glucose,urea and penicillin using enzyme-pH-electrodes

Conventional hydrogen ion glas electrodes have been used for the preparation of enzyme-pH-electrodes by either entrapping the enzymes within polyacrylamide gels around the electrode or as liquid layer trapped within a cellophane membrane. The enzymes were glucose oxidase, urase and penicillinase.The pH response to glucose concentration was about linear within 10^?1–10^?3 M glucose and for urea linear within 5·10^t—–5·10^?5M. The pH response to penicillin was about linear in the range from 10^?3–10^?2 M resulting in a pH shift of 1.4 units; reproduceable pH response was obtained down to concentrations of 3·10^?5 M.Studies as to the effect of buffer using an urease–pH-electrode showed a buffer concentration of 10^?2 M a substantial shift of about one pH-unit in the range of 10^?4 to 10^?2 M urea. Both urease- and penicillinase–pH-electrodes were tested as to stability showing no decrease in pH response except at high substrate concentration (1·10^?2 M) over a period of 2–3 weeks kept at room temperature.     

Effect of potassium phenosan on structure of plasma membranes of mice liver cells in vitro

The effect of synthetic anti-oxidant potassium phenosan (PP, potassium salt of β-(4-hydroxy-3,5-ditretbutil-phenyl)-propionic acid) on the structural state of the surface (8 Å) and deep (20–22 Å) lipid regions of plasma membranes of mice liver cells was studied by spin probes method in vitro in a wide range of concentrations (10^?5–10^?21 M). Two stable free radicals, 5- and 16-doxyl-stearic acids (C₅ and C₁₆), were used as spin probes. The nonlinear polymodal dose-effect dependences were obtained for parameters that characterize the microviscosity of the lipid bilayer (τ_c) in the site of localization of the probe C₁₆, and the order parameter (S), which characterizes the stiffness of the surface layers of lipids in the site of localization of the probe C₅. Statistically a reliable increase was observed for parameter τ_c after addition of PP at concentrations 10^?5–10^?7 M and 10^?18–10^?19 M, and for parameter S after addition of PP at concentrations 10^?6–10^?7 M and 10^?13–10^?15 M. Peaks on both dose-effect curves were separated by the intervals of concentrations where PP had no effect on the studied physico-chemical characteristics of biomembranes. For PP concentrations which caused maximal changes in τ_c and S, we investigated thermal dependence of these parameters and determined the thermally induced structural transitions. Comparing with control, ultra-low doses of PP (10^?13–10^?15 M) and (10^?18–10^?19 M) caused an appearance of additional thermally induced structural transition in the surface and deep regions of plasma membrane lipids. The possible role of the interaction of PP molecules with specific binding sites on plasma membranes and formation of nanoparticles of PP in very dilute aqueous solutions are discussed.     

Inelastic light scattering studies of solutions of the chloroplast coupling factor (CF1) at high and low ionic strength

The translational diffusion coefficient of CF₁ at low and high protein concentration as well as at different ionic strength (0.05 – 1.65 M) wsa determined by means of quasi-elastic light scattering experiments. The diffusion coefficient changes from D_20,w^o = 3.12 × 10^?7 cm² · sec^?1 at 0.05 M, pH 7.8, 20°C, to D_20,w^o = 3.52 × 10^?7 cm² · sec^?1 at 1.6 M, pH 7.8, 20°C. At high enzyme concentration (20 mg/ml) and under crystallization conditions (Paradies, BBRC 91: 685, 1979) CF₁ behaves as a solution of “true” hard spheres, whereas at low salt concentration the ionic atmosphere has a larger spatial extent, resulting in a higher effective hydrodynamic radius (R_H = 65 Å).     

Distribution of surface soil mercury of Wuda old mining area,Inner Mongolia,China

In this study, mercury (Hg) concentrations in dustfall and topsoil were investigated. Three hundred forty-four samples were collected, including dustfall and topsoil samples, across an area of ～180 km² in Wuda, China. Dustfall Hg concentration in Wuda ranged from 10 to 6453 ng·g^?1_, with an average of 305 ng·g^?1, and topsoil Hg concentration ranged from 3 to 1537 ng·g^?1, with an average value of 135 ng·g^?1. The average dustfall Hg concentrations in the coalfield, industrial park, and urban areas were 289 ng·g^?1, 809 ng·g^?1, and 160 ng·g^?1, respectively, and the corresponding average topsoil Hg concentrations were 216 ng·g^?1, 242 ng·g^?1, and 91 ng·g^?1. Hg concentrations were significantly higher in the coalfield, industrial park, and urban areas compared with background values for Wuda and China tide soil. The coal Hg concentrations ranged from 273 to 346 ng·g^?1, with an average value of 317 ng·g^?1. Comparison of the Hg concentrations of Wuda coal with other regions and countries, indicated that Hg concentrations were significantly enriched in coal, highlighting that coal is the primary Hg source for Wuda District. While coal fires provided the primary source of Hg, some higher Hg values were caused by factors such as gangue hills and coalfield topography, the use of activated carbon with HgCl₂ as a catalyst in the industrial park, and several coal washeries in wasteland areas. In addition to atmospheric Hg, underground coal seam emissions served as another potential Hg source in the coalfield. The surface soil Hg in the coalfield and industrial park areas should be given closer attention in the future.     

DEPRESSION OF MASTIGOCLADUS LAMINOSUS (CYANOPHYTA) NITROGENASE ACTIVITY UNDER NORMAL SUNLIGHT INTENSITIES1

The effect of light intensity (PAR) on the nitrogenase activity of Mastigocladus laminosus Cohn was studied by the acetylene reduction technique. Benthic mat from a thermal stream, Hot River, in Yellowstone National Park was used in both experimental and in situ incubations. This hot spring maintained a mean pH of 7.0, was essentially isothermal (ca. 50°C), and had virtually no upstream to downstream physicochemical gradients (P > 0.05). Two surveys of the stream showed that nitrogenase of the M. laminosus mat was significantly more active (P > 0.02) under low light intensities than under high intensities, 252 and 712 μE · m^?2· s^?1, respectively. Maximum activity of Hot River Mastigocladus (268 nmol C₂H₄· mg Chl a^?1· h^?1) occurred at 50% full midday light intensities; the rates at low light (mean = 247 nmol C₂H₄· mg Chl a^?1· h^?1) were significantly (P > 0.001) greater than those at high light (mean = 106). The results indicate that M. laminosus nitrogenase activity is low light adapted and suggest that the temporal pattern for nitrogen fixation might be significantly different from that of thermophilic Calothrix.     

Lutein-chlorophyll-a energy transfer in detergent micelles

Absorption, fluorescence and fluorescence excitation spectra were determined for equimolar mixed micellar detergent solutions of lutein and chlorophyll-a in the concentration range from 9·10^?6 to 1.8·10^?4 M, with detergent (triton-X100) concentrations from 3·-10^?4 to 7·10^?3 M. In the range of detergent concentrations studied the pigments incorporated into the detergent micelles attained a high local concentration (0.1 to 0.01 M), reminiscent of pigment concentration within the chloroplast. A lutein → chlorophyll-a energy transfer with an efficiency of about 15% was found in these systems. In dilute (9·10^?6 M) pigment solution with concentrated (7·10^?3 M) detergent practically no transfer is observed. The extent of aggregation and the efficiency of transfer depend on the composition of the system. The aggregation of chlorophyll-a is partly inhibited by lutein molecules. It is shown that the energy transfer efficiency as function of distance follows anr ^?3 relationship,R ₀ being 22 å.     

Quantitation of epinephrine- and glucagon-sensitive adenylate cyclases of rat liver implications of alterations of enzymatic activities during preparation of particulate fractions and membranes

Stimulated and basal adenylate cyclase activities from livers of young and old rats were lower in particulates than in homogenates. Particulates were compared to homogenates by reconstituting the suspensions to the volume of the homogenates from which they were derived; enzyme activities in paired homogenates and particulates therefore reflected the same amounts of membrane-bound enzyme. The magnitude of the losses of hormone-sensitive activities in particulates was dependent on the age and sex of the animals and the concentrations of hormone. Particulates from 3-month-old animals showed glucagon-( (1 · 10^?5 M) and epinephrine-sensitive (1 · 10^?4 M) activities which were 67 and 78% of homogenate activities, respectively; particulates from 24-month-old animals had activities relative to homogenates of 55% for glucagon and as low as 32% for epinephrine. The glucagon dose vs. response curve in particulates and membranes showed maximal activity at 1 · 10^?7 M glucagon while in homogenates activity increased linearly with increasing glucagon concentrations up to 1 · 10^?5 M. Losses of basal and anion-stimulated activities were similar at both ages. Fluoride and azide stimulations relative to basal activities were greater in particulates than in homogenates, while relative epinephrine activity was lower in particulates, suggesting qualitative alteration of adenylate cyclase during preparation of particulates. These studies show that adenylate cyclase activity in rat liver is presently best quantitated in homogenates and suggest caution in comparisons of enzyme activities based on particulates or membranes prepared from animals of differing physiologic states.     

Chymotrypsinogen · inositol phosphatide complexes and the transport of digestive enzyme across membranes

Chymotrypsinogen A was almost quantitatively extracted from aqueous solution in the presence of inositol phosphatides at relatively low concentrations of both ligands. Calcium ion facilitated the interaction at concentrations of 10^?4–10^?5 M. A water-insoluble chymotrypsinogen · Ca²⁺ · inositol phosphatide complex was formed with an apparent stochiometry of 3 mol phospholipid : 3 mol Ca²⁺ : 1 mol protein. Small changes in the structure of the protein prevented complex formation; in particular, the almost identical α-chymotrypsin, did not form complexes under the conditions studied. On the other hand, an homologous, but structurally substantially different, secretory protein, trypsinogen, did form complexes. Water-insoluble complexes were not formed with albumin, carbonic anhydrase or lactic dehydrogenase under the same circumstances. Neither phosphatidylethanolamine nor phosphatidylcholine formed complexes with chymotrypsinogen. Phosphatidylserine formed complexes, but was less effective than inositol phosphatides. Complex formation and stability was dependent upon “critical” concentrations of both Ca²⁺ and H⁺. Extraction of the protein from solution increased from neglible to complete when the calcium concentration of the medium was raised slightly from 1.0 · 10^?4 M to 1.5·10^?4 M. Conversely, dissociation was complete when H⁺ concentration was decreased slightly from pH 6.5 to 7.0. The complex is apparently formed as the result of specific electrostatic interactions between the polar head group of the inositol phosphatide and the protein, with the nonpolar alipathic fatty acid chains of the phospholipid providing a hydrophobic microenvironment for the protein. It is proposed that such complexes could account for the movement of digestive enzyme through membranes.     

Pentobarbital sodium inhibits calcium uptake in vascular smooth muscle

This report demonstrates that the commonly used anesthetic agent, pentobarbital sodium, in concentrations of 1 · 10^?4 to 2 · 10^?3 M inhibits calcium (Ca²⁺) uptake in both rat aortic and portal venous smooth muscle. The data indicate that total exchangeable Ca²⁺ in portal vein is reduced by about 15% in 1 · 10^?4 M pentobarbital sodium, while the intracellular exchangeable Ca²⁺ is reduced by 24%. On the other hand, in aortic smooth muscle, while 5–20 · 10^?4 M pentobarbital sodium reduces total exchangeable Ca²⁺ by about 15%, intracellular Ca²⁺ is reduced by 22% in 5 · 10^?4 M pentobarbital sodium and by 38% in 2 · 10^?3 M pentobarbital sodium. The present studies thus reveal that concentrations of pentobarbital sodium known to be present during induction of surgical anesthesia can exert significant inhibitory effects on exchangeability and transmembrane movement of Ca²⁺ in at least two different types of blood vessels.