The effect of ferrous ions,tungstate and selenite on the level of formate dehydrogenase inClostridium formicoaceticum and formate synthesis from CO2 during pyruvate fermentation

In a medium containing a trace element solution and 10^-4 M ferrous ions the growth yield ofClostridium formicoaceticum on fructose was 5.5 g of weight per l; in the absence of metal ion solution it was 1 g per l. The specific activity of methyl viologen dependent formate dehydrogenase under both conditions was 0.28 and 0.03 units per mg of protein, respectively. It could be increased to 9.75 units when the growth medium contained 10^-4 M tungstate and 10^-5 M selenite in addition. Molybdate was only about 40% as effective as tungstate. Tungstate or molybdate could not be replaced by vanadate, selenite not by sulfide. The formate dehydrogenase catalyzed also the reduction of CO₂ to formate. The highest rate of formate synthesis was observed when pyruvate served as the reductant. No pyruvate: formate exchange but rapid pyruvate: CO₂ exchange could be observed with cell-free extracts ofC. formicoaceticum. Pyruvate is fermented byC. formicoaceticum to yield up to 1.16 mole acetate per mole of pyruvate. Resting cells accumulated some formate in addition to acetate.     

Mechanisms of Na+ uptake,ammonia excretion,and their potential linkage in native Rio Negro tetras (Paracheirodon axelrodi,Hemigrammus rhodostomus,and Moenkhausia diktyota)

Mechanisms of Na⁺ uptake, ammonia excretion, and their potential linkage were investigated in three characids (cardinal, hemigrammus, moenkhausia tetras), using radiotracer flux techniques to study the unidirectional influx (J _in), efflux (J _out), and net flux rates (J _net) of Na⁺ and Cl^?, and the net excretion rate of ammonia (J _Amm). The fish were collected directly from the Rio Negro, and studied in their native “blackwater” which is acidic (pH 4.5), ion-poor (Na⁺, Cl^? ~20 µM), and rich in dissolved organic matter (DOM 11.5 mg C l^?1). J _in ^Na , J _in ^Cl , and J _Amm were higher than in previous reports on tetras obtained from the North America aquarium trade and/or studied in low DOM water. In all three species, J _in ^Na was unaffected by amiloride (10^?4 M, NHE and Na⁺ channel blocker), but both J _in ^Na and J _in ^Cl were virtually eliminated (85–99 % blockade) by AgNO₃ (10^?7 M). A time course study on cardinal tetras demonstrated that J _in ^Na blockade by AgNO₃ was very rapid (<5 min), suggesting inhibition of branchial carbonic anhydrase (CA), and exposure to the CA-blocker acetazolamide (10^?4 M) caused a 50 % reduction in J _in ^Na _.. Additionally, J _in ^Na was unaffected by phenamil (10^?5 M, Na⁺ channel blocker), bumetanide (10^?4 M, NKCC blocker), hydrochlorothiazide (5 × 10^?3 M, NCC blocker), and exposure to an acute 3 unit increase in water pH. None of these treatments, including partial or complete elimination of J _in ^Na (by acetazolamide and AgNO₃ respectively), had any inhibitory effect on J _Amm. Therefore, Na⁺ uptake in Rio Negro tetras depends on an internal supply of H⁺ from CA, but does not fit any of the currently accepted H⁺-dependent models (NHE, Na⁺ channel/V-type H⁺-ATPase), or co-transport schemes (NCC, NKCC), and ammonia excretion does not fit the current “Na⁺/NH₄ ⁺ exchange metabolon” paradigm. Na⁺, K⁺-ATPase and V-type H⁺-ATPase activities were present at similar levels in gill homogenates, Acute exposure to high environmental ammonia (NH₄Cl, 10^?3 M) significantly increased J _in ^Na , and NH₄ ⁺ was equally or more effective than K⁺ in activating branchial Na⁺,(K⁺) ATPase activity in vitro. We propose that ammonia excretion does not depend on Na⁺ uptake, but that Na⁺ uptake (by an as yet unknown H⁺-dependent apical mechanism) depends on ammonia excretion, driven by active NH₄ ⁺ entry via basolateral Na⁺,(K⁺)-ATPase.     

Sulphate uptake and metabolism in the chrysomonad,Monochrysis lutheri

The intracellular concentration of inorganic ³⁵SO₄ in Monochrysis lutheri cells exposed to 0.513 mM Na₂ ³⁵SO₄ for up to 6-hr remained constant at about 0.038 mM. The exchange rate of this ³⁵SO₄ with the external unlabelled sulphate was negligible compared to the rate of influx across the plasmalemma (0.032 μmoles/g cells/hr). The flux of free ³⁵SO₄ to organic ³⁵S was 0.029 μmoles/g cells/hr. Assuming an internal electrical potential in the cells of-70 mV, this intracellular concentration of inorganic ³⁵SO₄ was well in excess of that obtainable by passive diffusion as calculated from the Nernst equation. These results indicate that sulphate is accumulated by an active mechanism rather than by facilitated diffusion. Sulphate uptake appears to occur via a carrier-mediated membrane transport system which conforms to Michaelis-Menten type saturation kinetics with a K _m of 3.2×10^-5 M and a V _max of 7.9×10^-5 μmoles sulphate/hr/10⁵ cells. Uptake was dependent on a source of energy since the metabolic inhibitor CCCP almost completely inhibited uptake under both light and dark conditions and DCMU caused a 50% decrease in uptake under light conditions. Under dark conditions, uptake remained at about 80% of that observed under light conditions and was little affected by DCMU, indicating that the energy for uptake could be supplied by either photosynthesis or respiration. A charge and size recognition site in the cell is implied by the finding that sulphate uptake was inhibited by chromate and selenate but not by tungstate, molybdate, nitrate or phosphate. Chromate did not inhibit photosynthesis. Cysteine and methionine added to the culture medium were apparently capable of exerting inhibition of sulphate uptake in both unstarved and sulphate-starved cells. Cycloheximide slightly inhibited sulphate uptake over an 8-hr period indicating, either a slow rate of entry of the inhibitor into the cells or a slow turnover of the proteins(s) associated with sulphate transport.     

Multiple P2Y receptors couple to calcium-dependent,chloride channels in smooth muscle cells of the rat pulmonary artery

Background

Uridine 5''-triphosphate (UTP) and uridine 5''-diphosphate (UDP) act via P2Y receptors to evoke contraction of rat pulmonary arteries, whilst adenosine 5''-triphosphate (ATP) acts via P2X and P2Y receptors. Pharmacological characterisation of these receptors in intact arteries is complicated by release and extracellular metabolism of nucleotides, so the aim of this study was to characterise the P2Y receptors under conditions that minimise these problems.

Methods

The perforated-patch clamp technique was used to record the Ca²⁺-dependent, Cl^- current (I_Cl,Ca) activated by P2Y receptor agonists in acutely dissociated smooth muscle cells of rat small (SPA) and large (LPA) intrapulmonary arteries, held at -50 mV. Contractions to ATP were measured in isolated muscle rings. Data were compared by Student''s t test or one way ANOVA.

Results

ATP, UTP and UDP (10^-4M) evoked oscillating, inward currents (peak = 13–727 pA) in 71–93% of cells. The first current was usually the largest and in the SPA the response to ATP was significantly greater than those to UTP or UDP (P < 0.05). Subsequent currents tended to decrease in amplitude, with a variable time-course, to a level that was significantly smaller for ATP (P < 0.05), UTP (P < 0.001) and UDP (P < 0.05) in the SPA. The frequency of oscillations was similar for each agonist (mean≈6–11.min^-1) and changed little during agonist application. The non-selective P2 receptor antagonist suramin (10^-4M) abolished currents evoked by ATP in SPA (n = 4) and LPA (n = 4), but pyridoxalphosphate-6-azophenyl-2'',4''-disulphonic acid (PPADS) (10^-4M), also a non-selective P2 antagonist, had no effect (n = 4, 5 respectively). Currents elicited by UTP (n = 37) or UDP (n = 14) were unaffected by either antagonist. Contractions of SPA evoked by ATP were partially inhibited by PPADS (n = 4) and abolished by suramin (n = 5). Both antagonists abolished the contractions in LPA.

Conclusion

At least two P2Y subtypes couple to I_Cl,Ca in smooth muscle cells of rat SPA and LPA, with no apparent regional variation in their distribution. The suramin-sensitive, PPADS-resistant site activated by ATP most resembles the P2Y₁₁ receptor. However, the suramin- and PPADS-insensitive receptor activated by UTP and UDP does not correspond to any of the known P2Y subtypes. These receptors likely play a significant role in nucleotide-induced vasoconstriction.     

Initial events in the tip-swelling response of the filamentous gametophyte of Onoclea sensibilis L. to blue light

Several inhibitors were applied to filamentous gametophytes of the fern Onoclea sensibilis in the attempt to characterize how electrical phenomena might be involved in the tip-swelling response to blue light (BL). The membrane potential of the apical cell in the typical fern filament rests near-120 mV in darkness, but irradiation with blue light causes the membrane to hyperpolarize at a steady rate of 2.6 mV min^-1 until it reaches a new stable value between-130 and-135 mV. In darkness, 10^-4M salicylhydroxamic acid (SHAM), an inhibitor of BL-mediated absorbance changes in putative plasma-membrane fractions from maize coleoptiles, has no observable effects on the membrane potential or on filamentous growth. A SHAM pretreatment before BL irradiation causes approx. 70% inhibition of the membrane hyperpolarization as well as a comparable reduction in the growth response; however, SHAM has no effect in experiments where its application follows the onset of the electrical response. Exposing the filaments to 10^-5M Na₃VO₄, an inhibitor of the plasma-membrane ATPase, depresses the membrane potential in darkness. Depending on the timing of application, Na₃VO₄ prevents the initiation of or blocks further increases in the BL-mediated hyperpolarization. Application of Na₃VO₄ causes an immediate cessation of growth in both darkness and BL. These findings implicate the involvement of a plasmalemma-bound flavin-cytochrome complex and ATP-driven proton pump in the initial events of this growth response to blue light.     

M3 cholinoreceptors alter electrical activity of rat left atrium via suppression of L-type Ca<Superscript>2+</Superscript> current without affecting K<Superscript>+</Superscript> conductance

Electrophysiological effects produced by selective activation of M3 cholinoreceptors were studied in isolated left atrium preparations from rat using the standard sharp glass microelectrode technique. The stimulation of M3 receptors was obtained by application of muscarinic agonist pilocarpine (10^?5 M) in the presence of selective M2 antagonist methoctramine (10^?7 M). Stimulation of M3 receptors induced marked reduction of action potential duration by 14.4 ± 2.4% and 16.1 ± 2.5% of control duration measured at 50 and 90% of repolarization, respectively. This effect was completely abolished by selective M3 blocker 4-DAMP (10^?8 M). In isolated myocytes obtained from the rat left atrium, similar pharmacological stimulation of M3 receptors led to suppression of peak L-type calcium current by 13.9 ± 2.6% of control amplitude (measured at +10 mV), but failed to affect K⁺ currents I _to, I _Kur, and I _Kir. In the absence of M2 blocker methoctramine, pilocarpine (10^?5 M) produced stronger attenuation of I _CaL and induced an increase in I _Kir. This additive inward rectifier current could be abolished by highly selective blocker of K_ir3.1/3.4 channels tertiapin-Q (10^?6 M) and therefore was identified as I _KACh. Thus, in the rat atrial myocardium activation of M3 receptors leads to shortening of action potentials via suppression of I _CaL, but does not enhance the major potassium currents involved in repolarization. Joint stimulation of M2 and M3 receptors produces stronger action potential shortening due to M2-mediated activation of I _KACh.     

Amiodarone Inhibits Apamin-Sensitive Potassium Currents

Background

Apamin sensitive potassium current (I _KAS), carried by the type 2 small conductance Ca²⁺-activated potassium (SK2) channels, plays an important role in post-shock action potential duration (APD) shortening and recurrent spontaneous ventricular fibrillation (VF) in failing ventricles.

Objective

To test the hypothesis that amiodarone inhibits I _KAS in human embryonic kidney 293 (HEK-293) cells.

Methods

We used the patch-clamp technique to study I _KAS in HEK-293 cells transiently expressing human SK2 before and after amiodarone administration.

Results

Amiodarone inhibited I_KAS in a dose-dependent manner (IC₅₀, 2.67±0.25 µM with 1 µM intrapipette Ca²⁺). Maximal inhibition was observed with 50 µM amiodarone which inhibited 85.6±3.1% of I_KAS induced with 1 µM intrapipette Ca²⁺ (n = 3). I_KAS inhibition by amiodarone was not voltage-dependent, but was Ca²⁺-dependent: 30 µM amiodarone inhibited 81.5±1.9% of I _KAS induced with 1 µM Ca²⁺ (n = 4), and 16.4±4.9% with 250 nM Ca²⁺ (n = 5). Desethylamiodarone, a major metabolite of amiodarone, also exerts voltage-independent but Ca²⁺ dependent inhibition of I _KAS.

Conclusion

Both amiodarone and desethylamiodarone inhibit I _KAS at therapeutic concentrations. The inhibition is independent of time and voltage, but is dependent on the intracellular Ca²⁺ concentration. SK2 current inhibition may in part underlie amiodarone''s effects in preventing electrical storm in failing ventricles.     

Esterase-16 (Es-16): Characterization,polymorphism, and linkage to chromosome 3 of a kidney esterase locus of the house mouse

A polymorphism for an isozyme of a presumed arylesterase, esterase-16 (EC 3.1.1.2), has been detected in kidney, heart, and spleen of the house mouse, Mus musculus, by means of isoelectric focusing and by disc electrophoresis. Three phenotypes can be distinguished: the ES-16A phenotype (IEP 5.9) was found in C57BL/10Sn and many other laboratory inbred strains; the ES-16B phenotype (IEP 6.1) was found in M. m. molossinus; and the ES-16C phenotype (IEP 5.9; very weak activity) was found in Peru-Coppock. Esterase-16 is strongly inhibited by 10^?3 m p-chloromercuribenzoate, but not by 2·10^?4 m bis-p-nitrophenyl phosphate or by 10^?3 m Diamox. It stains well with indoxyl acetate and other indigogenic substrates but only weakly with α-naphthyl acetate. Esterase-16 is completely insoluble in water. It is apparently governed by a structural gene locus, Es-16, with three alleles, Es-16 ^a , Es-16^b, and Es-16 ^c, respectively. Es-16 is closely linked to Car-1 and Car-2 on chromosome 3. Typing of 94 animals of the backcross (C57BL/10Sn × M. m. mol.) F₁ × M. m. mol. revealed a recombination frequency of 8.51±2.9%.     

Identification,properties, and genetic control of UDP-glucose: Cyanidin-3-rhamnosyl-(1→6)-glucoside-5-O-glucosyltransferase isolated from petals of the red campion (Silene dioica)

An enzyme catalyzing the transfer of the glucosyl moiety of UDP-glucose to the 5-hydroxyl group of cyanidin-3-rhamnosyl-(1→6)-glucoside has been demonstrated in petal extracts of Silene dioica plants. This glucosyltransferase activity was not detectable in green parts of these plants. The enzyme activity is controlled by a single dominant gene M; no glucosyltransferase activity could be demonstrated in petals of m/m plants. The enzyme was purified eightyfold by PVP and Sephadex G50 chromatography. The glucosyltransferase had a pH optimum of 7.4, had a molecular weight of about 55,000, was stimulated by divalent metal ions, and had a “true K_m” value of 0.5×10^?3 m for UDP-glucose and 3.6×10^?3 m for cyanidin-3-rhamnosylglucoside. Pelargonidin-3-rhamnosylglucoside also could serve as acceptor. The enzyme did not catalyze the glucosylation of the 5-hydroxyl group of cyanidin-3-glucoside, although in petals of M/- n/n mutants cyanidin-3,5-diglucoside is present. ADP-glucose could not serve as a glucosyl donor.     

Catabolism of d-fructose and d-ribose by Pseudomonas doudoroffii

1. The 1-P-fructokinase (1-PFK) and 6-P-fructokinase (6-PFK) from Pseudomonas doudoroffii were partially purified by a combination of (NH₄)₂SO₄ fractionation and DEAE-Sephadex column chromatography. The pH optima of these enzymes were 9.0 and 8.5, respectively.
2. When the concentrations of the substrates of the 1-PFK reaction were varied, Michaelis-Menten kinetics were observed. The Kms for d-fructose-1-P (F-1-P) and ATP were 3.03×10^-4 M and 3.39×10^-4 M, respectively. Variation of MgCl₂ at fixed concentrations of F-1-P and ATP resulted in sigmoidal kinetics; about 10 mM MgCl₂ was necessary for maximal activity. Activity of 1-PFK was inhibited when the ratio of ATP: Mg⁺⁺ was higher than 0.5, suggesting that ATP: 2Mg⁺⁺ was the substrate and that free ATP was inhibitory. Although an absolute requirement for K⁺ or NH ₊ ⁴ could not be demonstrated, these cations stimulated the rate of the reaction. Activity of 1-PFK was not significantly affected by 3 mM AMP, cyclic-AMP, P_i, d-fructose-6-P (F-6-P), ADP, P-enolpyruvate (PEP), pyruvate, citrate, or l-glutamate.
3. Sigmoidal kinetics were observed for 6-PFK when the concentration of F-6-P was increased and the level of ATP was kept constant. Activity of 6-PFK was increased by ADP, inhibited by PEP, and unaffected by 3 mM AMP, cyclic-AMP, P_i, F-1-P, pyruvate, or citrate.

     

Micromonospora taraxaci sp. nov., a novel endophytic actinomycete isolated from dandelion root (Taraxacum mongolicum Hand.-Mazz.)

A novel actinomycete, designated strain NEAU-P5^T, was isolated from dandelion root (Taraxacum mongolicum Hand.-Mazz.). Strain NEAU-P5^T showed closest 16S rRNA gene sequence similarity to Micromonospora chokoriensis 2–19/6^T (99.5 %), and phylogenetically clustered with Micromonospora violae NEAU-zh8^T (99.3 %), M. saelicesensis Lupac 09^T (99.0 %), M. lupini Lupac 14N^T (98.8 %), M. zeae NEAU-gq9^T (98.4 %), M. jinlongensis NEAU-GRX11^T (98.3 %) and M. zamorensis CR38^T (97.9 %). Phylogenetic analysis based on the gyrB gene sequence also indicated that the isolate clustered with the above type strains except M. violae NEAU-zh8^T. The cell-wall peptidoglycan consisted of meso-diaminopimelic acid and glycine. The major menaquinones were MK-9(H₈), MK-9(H₆) and MK-10(H₂). The phospholipid profile contained diphosphatidylglycerol, phosphatidylethanolamine and phosphatidylinositol. The major fatty acids were C_16:0, iso-C_15:0 and C_17:0. Furthermore, some physiological and biochemical properties and low DNA–DNA relatedness values enabled the strain to be differentiated from members of closely related species. Therefore, it is proposed that strain NEAU-P5^T represents a novel species of the genus Micromonospora, for which the name Micromonospora taraxaci sp. nov. is proposed. The type strain is NEAU-P5^T (=CGMCC 4.7098^T = DSM 45885^T).     

Nitrofuran induced mutagenesis and error prone repair in Escherichia coli

The binding of cis(c)- and trans(t)-Pt(NH₃)₂Cl₂ to DNA at platinum/DNA-nucleotide ratios (R_i) of 0.1 or less has been studied by means of radioactive ^195mPt-labeled compounds. Kinetic data are consistent with the following scheme:

At 25°C and pH 5–6 in 5 mM NaClO₄, the values for the rate constants in the above scheme for the c-isomer are k₂ = 2.2 × 10^?5 sec^?1, k₇ = 0.32 (sec M)^?1, and k₈ = 143 (sec M)^?1; for the t-isomer the values are k₂ < 0.5 × 10^?5 sec^?1 and k₇ = 0.95 (sec M)^?1. Platinum-DNA adducts do not undergo detectable exchange after 3 days at 37°C, indicating the absence of a dynamic equillibrium. For both isomers the rate of binding is the same for single- and double-stranded DNA. The conclusions derived from Ag⁺ and H⁺ titration studies are consistent with binding at guanine N(7) for R_i < 0.1. The reaction rate is competitively inhibited by various salts and buffers and is suppressed by raising the pH (50% inhibition of initial rates at pH 7.3). At 37°C and pH 7 in 0.15 M NaCl, 6–8% of both the c- and t-isomers bind to DNA in 24 h, suggesting that both compounds should bind to DNA under biological conditions.     

Permeabilities of theChara cell wall to saccharides,albumin and ficoll

A method was developed to enable the determination of the permeability coefficient of theChara cell wall to various solutes from a measurement of the water flow occurring in the solution-cell wall-water system. For this method, the cell wall tube, closed at one end with the natural septum, was connected to a pipette, which serves as a volumeter, by using a glass capillary and a needle. Permeability coefficientsk _s of the cell wall to glucose (M.W.=180.2), mannitol (M.W.=182.2), sucrose (M.W.=342.3), lactose (M.W.=342.3), raffinose (M.W.=504.5) and melezitose (M.W.=504.4) were 2.27, 2.36, 1.43, 1.38, 1.11 and 1.09×10⁻⁴ cm sec⁻¹, respectively. The reciprocal ofk _s is expressed as a linear function of molecular weight,M, by the equation 1/k _s =16M+1.5×10³ (cm⁻¹ sec) Albumin (M.W.=68,000) passed through the cell wall fairly well. Ficoll (M.W.=400,000±100,000) for practical purposes could not permeate the cell wall.     

Alleviation of cadmium toxicity by cerium in rice seedlings is related to improved photosynthesis,elevated antioxidant enzymes and decreased oxidative stress

Cadmium contamination is a critical constraint to plant production in agricultural soils in some regions. Cerium is one of the rare earth elements, it plays a positive role in plant growth with a appropriate content. The present study was conducted to examine the role of cerium nutrition in the amelioration of effects on cadmium toxicity in rice (Oryza sativa L.) seedlings by a hydroponic experiment. Measurements included growth condition, photosynthesis related parameters, chloroplast ultra-structure and antioxidant enzymes content. Our results showed that the growth of rice seedlings was markedly inhibited by cadmium (100 μM), and the inhibition was significantly alleviated by cerium (10 μM). Fresh weight, single seedling height and chlorophyll content of rice plants in cerium treated groups were increased by 24.4, 18.2 and 32.05 % compared to those of plants cultivated in only cadmium-present condition. Additionally, in cadmium treated plants, the addition of cerium significantly increased the value of the maximum quantum yield of primary photochemistry (F _v /F _m ), indicator of PSII ‘structure and functioning’ (SFI _ABS ) and the performance index on absorption basis (PI _ABS ), elevated the activity of whole chain electron transport activity, enhanced photophosphorylation and its coupling factor Ca²⁺-ATPase activities. The result showed that the chloroplasts and thylakoid membrane of the rice seedlings leaves grown in cerium treatment developed better than that in cerium-absent group under cadmium toxicity. Moreover, addition with 10 μM cerium mitigated cadmium stress by inducing leaf enzyme activities for antioxidation like superoxide dismutase, peroxidase and catalase, dramatically depressed superoxide (O ₂ ^·? ), hydrogen peroxide and malondialdehyde accumulation. Results indicated that alleviation of cadmium toxicity by cerium application is partly related to improved light-use-efficiency, increased antioxidant enzymes, decreased oxidative stress in rice seedlings.