NMR study of Ni2+ binding to the H-N-H endonuclease domain of colicin E9.

Ni2+ affinity columns are widely used for protein purification, but they carry the risk that Ni2+ ions may bind to the protein, either adventitiously or at a physiologically important site. Dialysis against ethylenediaminetetraacetic acid (EDTA) is normally used to remove metal ions bound adventitiously to proteins; however, this approach does not always work. Here we report that a bacterial endonuclease, the DNase domain of colicin E9, binds Ni2+ acquired from Ni2+ affinity columns, and appears to bind [Ni(EDTA)(H2O)n]2- at low ionic strength. NMR was used to detect the presence of both Ni2+ coordinated to amino acid side chains and [Ni(EDTA)(H2O)N]2-. Dialysis against > or =0.2 M NaCl was required to remove the [Ni(EDTA)(H2O)n]2-. The NMR procedure we have used to characterize the presence of Ni2+ and [Ni(EDTA)(H2O)n]2- should be applicable to other proteins where there is the possibility of binding paramagnetic metal ions that are present to expedite protein purification. In the present case, the binding of Ni2+ seems likely to be physiologically relevant, and the NMR data complement recent X-ray crystallographic evidence concerning the number of histidine ligands to bound Ni2+.     

Solubilization and Detergent Effects on Interactions of Some Drugs and Insecticides with the t-Butylbicyclophosphorothionate Binding Site Within the γ-Aminobutyric Acid Receptor-Ionophore Complex

Specific binding of [35S]t-butylbicyclophosphorothionate (TBPS) to rat brain membranes (RBM) is enhanced nine-fold by EDTA/water dialysis and 1.3- to 4.2-fold by 50 nM ketosteroid R 5135, or 5 mM 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS) or related piperazine-N-alkanesulfonate buffers, or extensive washing with NaCl/Na phosphate or Na phosphate/citrate solution. About one-fifth of the [35S]TBPS binding capacity appears in the soluble fraction whereas the rest remains in particulate form on treatment of the EDTA/water-dialyzed RBM with 20 mM CHAPS. Similar KD values (64-86 nM) are obtained for the original EDTA/water-dialyzed membranes and the CHAPS-treated and/or -solubilized preparations. The Bmax of the EDTA-treated RBM is reduced five-fold on solubilization with CHAPS. The potency for displacement of [35S]TBPS changes in the presence of CHAPS or on CHAPS solubilization: gamma-aminobutyric acid (GABA) and muscimol inhibit specific [35S]TBPS binding more strongly in the absence than in the presence of CHAPS: TBPS, picrotoxinin, and photoheptachlor epoxide are almost equally active with RBM, RBM + CHAPS, and RBM solubilized with CHAPS. Levels of (1R, alpha S)-cis-cypermethrin and dimethylbutylbarbiturate which are inhibitory with RBM are moderately stimulatory after TBPS receptor solubilization. Thus CHAPS defines three regions of the GABA receptor-ionophore complex, i.e., the GABA and benzodiazepine receptors, the TBPS/picrotoxinin/polychlorocycloalkane receptor(s), and the sites at which the alpha-cyano pyrethroid and the barbiturate interact with TBPS binding.     

Experimental and kinetic modelling studies on the acid-catalysed hydrolysis of the water hyacinth plant to levulinic acid

A comprehensive experimental and modelling study on the acid-catalysed hydrolysis of the water hyacinth plant (Eichhornia crassipes) to optimise the yield of levulinic acid (LA) is reported (T=150-175 degrees C, [Formula: see text] , water hyacinth intake=1-5wt%). At high acid concentrations (>0.5M), LA was the major organic acid whereas at low acid concentrations (<0.1M) and high initial intakes of water hyacinth, the formation of propionic acid instead of LA was favoured. The highest yield of LA was 53mol% (35wt%) based on the amount of C6-sugars in the water hyacinth (T=175 degrees C, [Formula: see text] , water hyacinth intake=1wt%). The LA yield as a function of the process conditions was modelled using a kinetic model originally developed for the acid-catalysed hydrolysis of cellulose and good agreement between the experimental and modelled data was obtained.     

Dental restorative composites fabricated from a novel organic matrix without an additional diluent

Commercial organic matrixes of dental composites generally include diluents such as triethylene glycol dimethacrylate (TEGDMA) to reduce viscosity. However, the diluent exhibits adverse effects such as curing shrinkage and diminished mechanical properties of the dental composites. To overcome these adverse effects, organic monomers that can be used as an organic matrix may be developed. In this study, various novel organic monomers were developed by substituting alkoxy for hydroxyl groups in 2,2-bis[4-(2-hydroxy-3-methacryloyloxy propoxy)phenyl]propane (bis-GMA). Viscosities of the alkoxy-substituted monomers were decreased by increasing substituent size. The viscosity of 2,2-bis[4-(2-ethoxy-3-methacryloyloxy propoxy)phenyl]propane (bis-E-GMA) was higher than the control organic matrix (70 wt % bis-GMA and 30 wt % TEGDMA). However, those of 2,2-bis[4-(2-propoxy-3-methacryloyloxy propoxy)phenyl]propane (bis-Pr-GMA), 2,2-bis[4-(2-butoxy-3-methacryloyloxy propoxy)phenyl]propane (bis-B-GMA), and 2,2-bis[4-(2-pentoxy-3-methacryloyloxy propoxy)phenyl]propane (bis-P-GMA) were lower than the control organic matrix. To this end, these monomers could be used as organic matrixes of dental composites without an additional diluent. Among these monomers, bis-B-GMA exhibited the lowest curing shrinkage. In comparison to the control organic matrix, the curing shrinkage of the bis-B-GMA dental composite was approximately 40%. Additionally, dental composites prepared from bis-B-GMA exhibited excellent mechanical properties.     

Extraction of extracellular polymeric substances from extreme acidic microbial biofilms

The efficiency of five extraction methods for extracellular polymeric substances (EPS) was compared on three benthic eukaryotic biofilms isolated from an extreme acidic river, Río Tinto (SW, Spain). Three chemical methods (MilliQ water, NaCl, and ethylenediamine tetraacetic acid [EDTA]) and two physical methods (Dowex 50.8 and Crown Ether cation exchange resins) were tested. The quality and quantity of the EPS extracted from acidic biofilms varied according to which EPS extraction protocol was used. Higher amounts were obtained when NaCl and Crown Ether resins were used as extractant agents, followed by EDTA, Dowex, and MilliQ. EPS amounts varied from approximately 155 to 478 mg g⁻¹ of dry weight depending on the extraction method and biofilm analyzed. EPS were primarily composed of carbohydrate, heavy metals, and humic acid, plus small quantities of proteins and DNA. Neutral hexose concentrations corresponded to more than 90% of the total EPS dry weight. The proportions of each metals in the EPS extracted with EDTA are similar to the proportions present in the water from each locality where the biofilms were collected except for Al, Cu, Zn, and Pb. In this study, the extracellular matrix heavy metal sorption efficiencies of five methods for extracting EPS from eukaryotic acidic biofilms were compared.     

Biphasic recognition chiral extraction: A novel method for separation of mandelic acid enantiomers

This article reports a new chiral separation method-biphasic recognition chiral extraction for the separation of mandelic acid enantiomers. Distribution behavior of mandelic acid enantiomers was studied in the extraction system with O,O'-di-benzoyl-(2S,3S)-4-toluoyl-tartaric acid (D-(+)-DTTA) in organic phase and beta-CD derivatives in aqueous phase, and the influence of the types and concentrations of extractants and pH on extraction efficiency was investigated. Hydroxypropyl-beta-cyclodextrin (HP-beta-CD), hydroxyethyl-beta-cyclodextrin (HE-beta-CD), and methyl-beta-cyclodextrin (Me-beta-CD) have stronger recognition abilities for S-mandelic acid than those for R-mandelic acid, among which HP-beta-CD has the strongest ability. D-(+)-DTTA preferentially recognizes R-mandelic acid. pH and the concentrations of extractants have great effects on chiral separation ability. A high enantioseparation efficiency with a maximum enantioselectivity of 1.527 is obtained at pH of 2.7 and the ratio of 2:1 of [D-(+)-DTTA] to [HP-beta-CD]. The obtained results indicate that the biphasic recognition chiral extraction is of stronger chiral separation ability than the monophasic recognition chiral extraction. It may be very helpful to optimize the extraction systems and realize the large-scale production of pure enantiomers.     

The solvent extraction of metal ions from aqueous solutions containing NNN′N′-Ethylenediaminetetraacetic and related ccids. Part 1. Uranium(IV)

The uranium(IV) complexes [U(EDTA)(H₂O)₂], [U(HOEDTA)]⁺, and [U(DTPA)]^? are well-formed in the pH fange 2–3 ([DTPA]^5- = diethylenetriaminepentaacetate; [HOEDTA]^3-  N-(2-hydroxyethyl)ethylenediaminetriacetate). Of these, only [U(DTPA)]- is extracted from an aqueous phase at pH 2 by the perchlorate salt of the primary amine, Primene JM-T. As the aqueous phase pH was raised, extraction occurred in all three cases and hydrolysed species may be extracted from EDTA and HOEDTA solutions but [U(DTPA)]^? resists hydrolysis. The addition of sulphate had a marked effect on the extraction of U(IV) from EDTA and HOEDTA through the formation of [U(EDTA)(SO₄)(H₂O)]^2- and [U(HOEDTA)(SO₄)(H₂O)_n]^?. The equilibrium constant, log β₁, for: [(U(EDTA)(H₂O)₂] 2 [SO₄]^2? ? [U(EDTA)(SO₄)(H₂O)]^2- 2 H₂O was found to be 2.43 ± 0.04 (I = 1 mol dm^?3, NaClO₄; pH 2.0; 20 °C) from spectrophotometric data.With tri-n-octylphosphine oxide (TOPO) electronic spectroscopy showed that the same U(IV) complex was extracted at pH 2 for Cs₂UCl₆, U(IV)/ HOEDTA, and U(IV)/DTPA and the aminepoly- carboxylates were aqueous phase masking agents but with [U(EDTA)(H₂O)₂] oxidation gave a uranyl(VI) organic phase species.Uranium(IV) is strongly extracted from aqueous solutions of HOEDTA at pH 2 or 3 by bis(2-ethyl- hexyl)phosphoric acid (HBEHP) but less so from EDTA and DTPA. Since U(IV) is completely extracted from Cs₂UCl₆ it could be that the amine- polycarboxylates were aqueous phase masking agents although spectral evidence did not support this.     

Enhanced phytoextraction: I. Effect of EDTA and citric acid on heavy metal mobility in a calcareous soil

Phytoextraction, the use of plants to extract heavy metals from contaminated soils, could be an interesting alternative to conventional remediation technologies. However, calcareous soils with relatively high total metal contents are difficult to phytoremediate due to low soluble metal concentrations. Soil amendments such as ethylene diaminetetraacetate (EDTA) have been suggested to increase heavy metal bioavailability and uptake in aboveground plant parts. Strong persistence of EDTA and risks of leaching of potentially toxic metals and essential nutrients have led to research on easily biodegradable soil amendments such as citric acid. In our research, EDTA is regarded as a scientific benchmark with which degradable alternatives are compared for enhanced phytoextraction purposes. The effects of increasing doses of EDTA (0.1,1,10 mmol kg(-1) dry soil) and citric acid (0.01, 0.05, 0.25, 0.442, 0.5 mol kg(-1) dry soil) on bioavailable fractions of Cu, Zn, Cd, and Pb were assessed in one part of our study and results are presented in this article. The evolution of labile soil fractions of heavy metals over time was evaluated using water paste saturation extraction (approximately soluble fraction), extraction with 1 M NH4OAc at pH 7 (approximately exchangeable fraction), and extraction with 0.5 M NH4OAc + 05 M HOAc + 0.02 M EDTA at pH 4.65 (approximately potentially bioavailable fraction). Both citric acid and EDTA produced a rapid initial increase in labile heavy metal fractions. Metal mobilization remained constant in time for soils treated with EDTA, but a strong exponential decrease of labile metal fractions was noted for soils treated with citric acid. The half life of heavy metal mobilization by citric acid varied between 1.5 and 5.7 d. In the following article, the effect of heavy metal mobilization on uptake by Helianthus annuus will be presented.     

Chromium(III)-mediated structural modification of glycoprotein: impact of the ligand and the oxidants

The interaction of three types of chromium(III) complexes, [Cr(salen) (H2O2]+, [Cr(en)3]3+, and [Cr(EDTA) (H2O)]- with AGP has been investigated. [Cr(salen) (H2O2]+, [Cr(en)3]3+ and [Cr(EDTA) (H2O]- bind to Human alpha1-acid glycoprotein with a protein:metal ratio of 1:8, 1:6, and 1:4, respectively. The binding constant, K(b) was estimated to be 1.37 +/- 0.12 x 10(5) M(-1), 1.089 +/- 0.05 x 10(5) M(-1) and 5.3 +/- 0.05 x 10(4) M(-1) for [Cr(salen) (H2O2]+, [Cr(en)3]3+, and [Cr(EDTA) (H2O)]-, respectively. [Cr(en)3]3+ has been found to induce structural transition of AGP from the native twisted beta sheet to a more compact alpha-helix. The complexes, [Cr(salen) (H2O2]+ and [Cr(EDTA) (H2O]-, in the presence of H2O2, have been found to bring about nonspecific cleavage of AGP, whereas [Cr(en)3]3+ does not bring about any protein damage. Treatment of [Cr(salen) (H2O)2]+-protein adduct with iodosyl benzene on the other hand led to site specific cleavage of the protein. These results clearly demonstrate that protein damage brought about by chromium(III) complexes depends on the nature of the coordinated ligand, nature of the metal complex, and the nature of the oxidant.     

Formation of diacylglycerol by a phospholipase D-phosphatidate phosphatase pathway specific for phosphatidylcholine in endothelial cells

The conversion of phosphatidylcholine (PC) to diacylglycerol (DAG) was studied in sonicated endothelial cells and in subcellular fractions in the presence of 0.05% Triton X-100 and 2 mM EDTA. DAG formation occurred predominantly in an organelle fraction that sedimented at 15,000 x g. In parallel reactions with exogenous 1-oleoyl-2-[3H]oleoyl-PC (sn-2-[3H]DOPC) and phosphatidyl[3H]choline ([choline-3H]PC), [3H]DAG was formed by a reaction pathway in which [3H]choline was the only product derived from [choline-3H]PC. [3H]Choline was not formed secondarily from [3H]glycerophosphocholine or [3H]phosphocholine. Small amounts of [3H]phosphatidate ([3H]PA) were isolated from reactions with sn-2-[3H]DOPC at short incubation times, and substantial PA phosphatase activity was demonstrated. These data, taken together, supported a phospholipase D-PA phosphatase pathway of DAG formation. Kinetic data established that the low ratio of [3H]PA/[3H]DAG formed in reactions with sn-2-[3H]DOPC was due to a 15-fold higher Vmax and 7-fold lower apparent Km of the PA phosphatase. The [3H]PA/[3H]DAG product ratio was increased by addition of unlabeled PA or by selective extraction of phospholipase D with Triton X-100. The characteristics of the phospholipase D indicated a unique enzyme. Activity was optimal in the presence of EDTA and was almost totally dependent upon Triton X-100. The pH profile displayed a peak at 7.0. Of particular significance was the stringent substrate specificity. Phosphatidylinositol was not hydrolyzed, and activities towards phosphatidylethanolamine and sphingomyelin were at most 30- to 50-fold lower than those towards PC. Phospholipase D and PA phosphatase were identified in a number of rat tissues and other cells. The highest activities of phospholipase D were present in lung and endothelial cells. Phospholipase D was partially purified from rat lung by Triton X-100 extraction and anion exchange chromatography. When linked with PA phosphatase, the phospholipase D could initiate a pathway of DAG formation that is highly specific for PC.     

Partial purification of endogenous inhibitors of (+)-[3H] SKF 10047 binding with sigma-opioid receptors of the liver

Porcine liver extract inhibits (+)-[3H]SKF 10047 binding to rat liver membranes. The inhibitors of (+)-[3H]SKF 10047 binding were detected in acetone supernatant and in acid acetonated powder of the liver extract. Partial purification of the acetone supernatant revealed some characteristics of these inhibitors: low molecular weight (less than 1000), thermostability, resistance to pronase digestion, solubility in water and organic solvents.     

EDTA-induced Membrane Fluidization and Destabilization： Biophysical Studies on Artificial Lipid Membranes

The molecular mechanism of ethylenediaminetetraacetic acid （EDTA）-induced membrane destabilization has been studied using a combination of four biophysical techniques on artificial lipid membranes. Data from Langmuir film balance and epifluorescence microscopy revealed the fluidization and expansion effect of EDTA on phase behavior of monolayers of either 1,2-dipalmitoyl-sn-glycero-3-phosphocholine （DPPC） or mixtures of DPPC and metal-chelating lipids, such as N^a,N^a-Bis[carboxymethyl]-N^ε [（dioctadecylamino）succinyl]-L-lysine or 1,2-dioleoyl-sn-glycero-3-[N-（5-amino- 1 -carboxypentyl iminodiacetic acid） succinyl]. A plausible explanation could be drawn from the electrostatic interaction between negatively charged groups of EDTA and the positively charged choline head group of DPPC. Intercalation of EDTA into the lipid membrane induced membrane curvature as elucidated by atomic force microscopy. Growth in size and shape of the membrane protrusion was found to be time-dependent upon exposure to EDTA. Further loss of material from the lipid membrane surface was monitored in real time using a quartz crystal microbalance. This indicates membrane restabilization by exclusion of the protrusions from the surface. Loss of lipid components facilitates membrane instability, leading to membrane permeabilization and lysis.     

Membrane glycoproteins from spermatozoa: partial characterization of an integral Mr = approximately 24,000 molecule from rat spermatozoa that is glycosylated during epididymal maturation

Spermatozoa from the rat cauda epididymidis were treated with either the galactose oxidase-NaB[3H]4 or the NaIO4-NaB [3H]4 technique to label cell surface moieties of galactose and sialic acid, respectively. Following extraction with 40 mM octyl-beta-D-glucopyranoside (OBG), electrophoresis in sodium dodecylsulfate-polyacrylamide gels (SDS-PAGE) revealed a single radioactive peak migrating at Mr = approximately 24,000 in 11.2%, 14% and 16.8% tube gels. SDS-PAGE of the same OBG extract on 5.6% and 14% gels showed that this molecule was the same as that reported elsewhere, having a molecular weight varying from 32,000 to 37,000. The amount of labeled molecule extracted with 8 M urea or with 6 M guanidine-HCl was 30 and 50%, respectively, of that achieved with OBG. However, when labeled sperm were treated under other conditions (at pH 8, pH 3, 0.1-3 M NaCl [at pH 7.2], 5 mM ethylenediaminetetraacetic acid [EDTA], 20-200 mM dithiothreitol or 20-200 mM betamercaptoethanol, at varying temperatures and extraction times), the amount of labeled molecule extracted was less than 1% of that obtained with OBG. The molecule aggregates in aqueous buffers, as shown by chromatography using Sephadex G-100 and by centrifugation through a sucrose density gradient. Analysis by charge-shift electrophoresis suggested that the molecule contains an exposed hydrophobic domain(s). Mild trypsin treatment released all the labeled carbohydrate with the majority of the label attached to a Mr = 10,000 fragment. These data support the hypothesis that the molecule is an integral membrane glycoprotein, and suggest that it is only partially buried in the lipid matrix of the plasma membrane.     

EDTA and industrial waste water improving the bioavailability of different Cu forms in contaminated soil

It is common to find that low bioavailability can prevent the phytoremediation process of heavy metal-contaminated soils. Heavy metals in soil are associated with various forms having different bioavailability. In this study, the bioavailability of various Cu forms in contaminated soils was investigated using ion-exchange resins, a sequential extraction procedure, and combined with methods including partial dissolution procedure, simulated Cu forms, seedling culture, pot experiment when treated with EDTA, or waste water from monosodium glutamate and citric acid production. Results showed that the bioavailability, in decreasing order of different Cu forms to tall fescue (Festuca arundinacea Schreb.) is: exchangeable Cu (EX-Cu) and organic matter bound Cu (OM-Cu)> Cu bound to carbonate (CAB-Cu)> Fe/Mn oxide bound Cu (OX-Cu)> residual Cu (RES-Cu). Effect of EDTA on the activation of Cu contaminated soil or simulated Cu and the uptake and translocation of tall fescue was better than that of monosodium glutamate waste water (MGW) and citric acid waste water (CAW). EDTA, CAW and MGW all improved the plant availability of different Cu forms in contaminated soil, which could be used in chelate-assisted phytoremediation of heavy metal polluted soil.     

Influence of Soil Organic Matter on Copper Extraction from Contaminated Soil

Column experiments of copper extraction from four contaminated soils characterized by a content of Soil Organic Matter (SOM) ranging from 1% to 25% are presented and discussed. The extraction was performed by flushing the soil with an aqueous solution of a sodium salt of ethylene diamminotetraacetic acid (EDTA). Preliminary tests were performed on a soil containing 25% of organic matter, to investigate the influence of pH, concentration and volumes of EDTA on its chelant action and on the dissolution of SOM. Having selected the optimal conditions for the extraction process, a further series of tests was conducted on the four soils to evaluate the influence of organic content on copper extraction yields. EDTA solutions at 0.01 M, 0.05 M, 0.1 and 0.2 M were injected at 0.33 ml/s; copper and organic matter extraction yield were determined. At a pH of 5, 15 pore volume (PV) of a solution containing 0.05M EDTA, extracted about 99% of copper contained by the soil with the higher organic matter content. Under the same conditions, and for soil with > 6% SOM, extraction yields over 80% were achieved, while at lower organic content, copper extraction was dramatically reduced. This was attributed to the formation of highly stable copper-humate complexes and to their increasingly dissolution that occurred in the soils with higher organic matter level.

Experimental tests performed at different contamination levels (1200 mg/kg, 2400 mg/kg) showed that EDTA extraction effectiveness also depended upon initial soil Cu concentration.     

Covalent binding of an intermediate(s) in prostaglandin biosynthesis to guinea pig lung microsomal protein

We have investigated the possible covalent binding of intermediates in prostaglandin (PG) biosynthesis to tissue macromolecules. Following incubation of arachidonic acid -1-[14]C (AA) with guinea pig lung microsomes, radioactivity was associated with the microsomal protein which was not dissociated from the protein by exhaustive solvent extraction. Furthermore, filtration of the protein complex through a Sephadex G-25 column failed to dissociate the radioactivity from the protein. This probably indicates covalent binding of AA metabolite(s) to protein. [3]H-PGE₂, [3]H-PGF_2α, and [3]H-thromboxane B₂ (TXB₂) did not show this high affinity binding to microsomal protein. The covalent binding of AA metabolites was greatly reduced in denatured microsomes and was inhibited by the addition of glutathione (GSH) or indomethacin to the incubation mixtures. Chromatographic analysis of the water layers obtained from microsomal incubations with either [3]H-AA or [3]H-GSH suggested the presence of one or more glutathione conjugates derived from AA. These studies indicate that most likely an intermediate formed during PG synthesis from AA covalently binds to tissue macromolecules. This covalent binding may be of physiological and pathological significance.     

Effect of high boron application on boron content and growth of melons

Synthetic chelates, such as ethylene diamine tetraacetic acid (EDTA), have been shown to enhance phytoextraction of Pb from contaminated soil but also cause leaching of heavy metal-chelate complexes, posing a groundwater contamination threat. In a soil column study, we examined the effect of EDTA and a biodegradable chelate [S,S] isomere of ethylene diamine disuccinate ([S,S]-EDDS), newly introduced in phytoextraction research, on the uptake of Pb by the Chinese cabbage (Brassica rapa) and Pb leaching through the soil profile. Soil water sorption characteristics were modified by acrylamide hydrogel. The addition of 0.1 and 0.2% (w/w) of hydrogel amendments increased soil field water capacity from initial 24.6% to 28.5% and 31.3%, respectively. The additions of 2.5, 5 and 10 mmol EDTA kg^–1 soil were more effective in enhancing Pb plant uptake than comparable [S,S]-EDDS treatments, but caused (as also 10 mmol kg^–1 [S,S]-EDDS additions) unacceptably high Pb leaching in treatments with any soil water sorption conditions tested. The most efficient level of EDTA (10 mmol kg^–1) enhanced plant Pb uptake by 97 times compared to the control. Shoots Pb concentrations reached 500 mg kg^–1 of dry biomass. However, in this treatment 36.2% of total initial Pb was leached from the soil during the first four weeks after chelate addition. Hydrogel soil amendments were more effective in treatments with [S,S]-EDDS than with EDTA. In treatments with 10 mmol kg^–1[S,S]-EDDS hydrogel amended soils, plant Pb uptake was significantly reduced and Pb leach was as high as 44.2% of total initial soil Pb. At lower [S,S]-EDDS concentrations, the effect of hydrogel soil amendment on Pb leaching was the opposite. The addition of 5 mmol kg^–1 [S,S]-EDDS soil to the soil amended with 0.2% hydrogel increased Pb uptake by 18 times while only 0.2% of total initial Pb was leached. In all treatments, the concentrations of Pb in dry plant biomass were far from concentrations required for efficient soil remediation within a reasonable time span.     

Effect of calcium chelators on the Ca2+-dependent luminescence of aequorin.

The luminescence of aequorin, a useful tool for studying intracellular Ca2+, was recently found to be inhibited by the free EDTA and EGTA that are present in calcium buffers. In the present study we have examined the effect of the free forms of various chelators in the calibration of [Ca2+] with aequorin. Free EDTA and EGTA in low-ionic-strength solutions strongly inhibited the Ca2+-triggered luminescence of aequorin, causing large errors in the calibration of [Ca2+] (approx. 2 pCa units), whereas in solutions containing 150mM-KCl, errors were relatively small (0.2-0.3 pCa units). Citric acid in low-ionic-strength solutions and [(carbamoylmethyl)imino]diacetic acid in high-ionic-strength solutions showed no inhibition and did not cause detectable error in the calibration of [Ca2+], indicating that they are better chelators than EDTA and EGTA for use with aequorin.     

Radiochemical micro assays for the determination of choline acetyltransferase and acetylcholinesterase activities

1. The methods for the assay of choline acetyltransferase were based on the reaction between labelled acetyl-CoA and unlabelled choline to give labelled acetylcholine. 2. Both synthetic acetyl-CoA and acetyl-CoA formed from sodium [1-(14)C]acetate or sodium [(3)H]acetate by incubation with CoA, ATP, Mg(2+) and extract from acetone-dried pigeon liver were used. 3. [1-(14)C]Acetylcholine was isolated by extraction with ketonic sodium tetraphenylboron. 4. [(3)H]Acetylcholine was precipitated with sodium tetraphenylboron to remove a ketone-soluble contaminant in sodium [(3)H]acetate and then extracted with ketonic sodium tetraphenylboron. 5. The values of choline acetyltransferase activity obtained in the presence of sodium cyanide or EDTA and synthetic acetyl-CoA were similar to those obtained with acetyl-CoA synthesized in situ. 6. The assay of acetylcholinesterase was based on the formation of labelled acetate from labelled acetylcholine. The labelled acetylcholine could be quantitatively removed from the acetate by extraction with ketonic sodium tetraphenylboron. 7. The methods were tested with samples from central and peripheral nervous tissues and purified enzymes. 8. The blank values for choline acetyltransferase and acetylcholinesterase corresponded to the activities in 20ng. and 5ng. of brain tissue respectively.     

Enhanced phytoextraction: in search of EDTA alternatives

Enhanced phytoextraction proposes the use of soil amendments to increase the heavy-metal content of above-ground harvestable plant tissues. This study compares the effect of synthetic aminopolycarboxylic acids [ethylenediamine tetraacetatic acid (EDTA), nitriloacetic acid (NTA), and diethylenetriamine pentaacetic acid (DTPA)] with a number of biodegradable, low-molecular weight, organic acids (citric acid, ascorbic acid, oxalic acid, salicylic acid, and NH4 acetate) as potential soil amendments for enhancing phytoextraction of heavy metals (Cu, Zn, Cd, Pb, and Ni) by Zea mays. The treatments in this study were applied at a dose of 2 mmol/kg(-1) 1 d before sowing. To compare possible effects between presow and postgermination treatments, a second smaller experiment was conducted in which EDTA, citric acid, and NH4 acetate were added 10 d after germination as opposed to 1 d before sowing. The soil used in this screening was a moderately contaminated topsoil derived from a dredged sediment disposal site. This site has been in an oxidized state for more than 8 years before being used in this research. The high carbonate, high organic matter, and high clay content characteristic to this type of sediment are thought to suppress heavy-metal phytoavailability. Both EDTA and DTPA resulted in increased levels of heavy metals in the above-ground biomass. However, the observed increases in uptake were not as large as reported in the literature. Neither the NTA nor organic acid treatments had any significant effect on uptake when applied prior to sowing. This was attributed to the rapid mineralization of these substances and the relatively low doses applied. The generally low extraction observed in this experiment restricts the use of phytoextraction as an effective remediation alternative under the current conditions, with regard to amendments used, applied dose (2 mmol/kg(-1) soil), application time (presow), plant species (Zea mays), and sediment (calcareous clayey soil) under study.