Influence of inorganic microelements on the production of camptothecin with suspension cultures of <Emphasis Type="Italic">Camptotheca acuminata</Emphasis>

The effects of eight microelements (I^–, BO₃ ^3–, MoO₄ ^2–, Co²⁺, Cu²⁺, Mn²⁺, Fe²⁺, Zn²⁺) on the biosynthesis of camptothecin and the growth of suspension cultures of Camptotheca acuminata were studied. The increase of I^– to 25 M l^–1, Cu²⁺ to 1 M l^–1, Co²⁺ to 2 M l^–1 and MoO₄ ^2– to 10 M l^–1 in Murashige and Skoog (MS) medium resulted in 1.66, 2.84, 2.53 and 2.04 times higher of camptothecin yield than that in standard MS medium respectively. Combined treatment of I^– (25 M l^–1), Cu²⁺ (1 M l^–1), Co²⁺ (2 M l^–1) and MoO₄ ^2– (10 M l^–1) lead to improve cell dry weight, camptothecin content, and camptothecin yield to 30.56 g l^–1, 0.0299%, and 9.15 mg l^–1, respectively, which were 20.2, 208.9 and 273.8% increment respectively when compared with those of control.     

A procedure for axenic isolation of the marine microalga Isochrysis galbana from heavily contaminated mass cultures

Isochrysis galbana, one of the most widely usedmarine microalgae in the rearing of finfish and shellfish larvae, is masscultured frequently in outdoor tanks. Under prolonged and repeated culture,severe contamination occurs. Axenic isolation of I.galbanafrom such cultures was best achieved by using a ternary procedure involvingpercoll-gradient centrifugation, treatment with antibiotics, and growth on agarmedium. Protozoa and other algae were removed most effectively by isolation ofI. galbana at the 30–40% density layer on apercoll-gradient. Removal of bacteria was accomplished using a mixture of 5antibiotics (250 g mL^–1 ampicillin, 50g mL^–1 gentamycin, 100 gmL^–1 kanamycin, 500 gmL^–1 neomycin, 50 gmL^–1 streptomycin). Axenic colonies were isolated fromasolid medium prepared from 1% purified agar. The ternary procedure isconsideredapplicable to the isolation of other axenic single-celled microalgae fromheavily contaminated cultures.     

Action of Cu2+ on Bacillus thuringiensis Growth Investigated by Microcalorimetry

By using an LKB-2277 Bioactivity Monitor, ampoule mode, the heat output of Bacillus thuringiensis growth metabolism is determined at 28°C and the effect of Cu²⁺ on B. thuringiensis growth is studied. Copper is regarded as an essential trace element for life. Its deficiency may be the cause of diseases. Cu²⁺ at different concentrations has different effects on B. thuringiensis growth metabolism: a low concentration (0–30 g/ml) of Cu²⁺ can promote the growth of B. thuringiensis, a high concentration (40–120 g/ml) can inhibit growth of the bacteria, and a concentration of Cu²⁺ of up to 130 g/ml completely inhibits B. thuringiensis growth.     

Pesticides and heavy metals in Danish streambed sediment

The role of streambed sediment as a sink for pesticides and heavy metals was investigated in 30 Danish lowland streams. The investigated streams drain catchments varying in hydrology, topography, soil type and land use. The <250 m newly accumulated fraction of the uppermost 1–2 cm layer of streambed sediment was analysed for 19 old and modern pesticides and 9 heavy metals. DDE was present in the sediment of all the streams. Of the herbicides, fungicides and insecticides currently in use, the most frequently detected was diuron (50.0%), fenpropimorph (66.7%) and lambda-cyhalothrin (6.7%), respectively. The pesticides detected in the highest concentration were fenpropimorph (1700 ng g^–1), propiconazole (130 ng g^–1) and isoproturon (110 ng g^–1). The heavy metals are listed in order of increasing median concentration: Cd (0.80 g g^–1), Co (9.1 g g^–1), As (12.0 g g^–1), Ni (19.0 g g^–1), Cr (19.2 g g^–1), Pb (19.7 g g^–1), Cu (20.1 g g^–1), V (28.5 g g^–1), Zn (103 g g^–1). The average number of pesticides detected in the 27 streams draining predominantly agricultural catchments was (3.7±2.0) being higher (p=0.077) than in the three streams draining non-agricultural catchments (1.7±0.6). Pesticides were significantly related to catchment size, soil type and hydrological regime. Several heavy metals (Cr, Cu, Pb, V and Zn) were related to urban activity and soil type.     

Effects of Zn2+ and Cu2+ on growth,lignin degradation and ligninolytic enzymes in Phanerochaete chrysosporium

The influence of Zn²⁺ (6.0 × 10^–3 –18.0 × 10^–3 M) and Cu²⁺ (4 × 10^–4 –1.2 × 10^–4 M) in the basal medium on mycelial growth (dry weight), activities of lignin peroxidase (Lip), manganese peroxidase (Mnp), solubilization, and mineralization (¹⁴CO₂ evolution) of lignin during a period of 3 weeks was studied in Phanerochaete chrysosporium strain MTCC-787. Highest mycelial growth was obtained at 0.6 M Zn²⁺ and 0.4 M Cu²⁺ levels. Enzyme activities were found to increase up to the highest levels of both the trace elements. However, Zn²⁺ had a relatively more stimulatory effect on Lip production and the reverse was true in case of Cu²⁺. [¹⁴C]Lignin solubilization was also promoted by higher levels of both trace elements. Mineralization of [¹⁴C]lignin was optimal at 6.0 M Zn²⁺ and 1.2 M Cu²⁺. The stimulatory effect of Zn²⁺ on Lip production was correlated with higher rates of [¹⁴C]lignin mineralization.     

Interactive cytotoxicities of selected organic and inorganic substances to brown cells ofMercenaria mercenaria

Toxicities of binary mixtures of Cu²⁺, Cd²⁺, benzo(a)pyrene [B(a)P] andN-ethylmaleimide (NEM) were screened using thein vitro neutral red (NR) assay to test the hypothesis that combined toxicity is more than or less than additive relative to the influence of each mixture constituent on toxicant uptake and brown cell lysosomal membrane stability. Significant cytotoxicity was observed at 25 mol/L Cu²⁺, 500 mol/L Cd²⁺ and 25 mol/L NEM. B(a)P at 12 mol/L exerted no toxicity under the conditions of the assay. Interactions between Cu²⁺ and NEM, between Cd²⁺ and NEM, and between Cd²⁺ and B(a)P significantly influenced brown cell survival. Comparison of observed joint toxicity with estimates made using a model of independent joint action indicates that interactive effects are less than additive in character. The 3-way interaction involving Cu²⁺, B(a)P, and NEM also affected brown cell survival to a statistically significant degree. However, the interactive cytotoxicity of this mixture is attributable mainly to the combined effect of Cu²⁺ and NEM. Results also indicate that new. hypotheses and additional experimentation are needed to understand the interactive toxicity of mixture constituents.Abbreviations PAH polyaromatic hydrocarbon - NEM N-ethylmaleimide - NR neutral red - B(a)P benzo(a)pyrene     

Effects of heavy metals on pollen tube growth and ultrastructure

Summary The influence of different concentrations of the heavy metals cadmium (Cd²⁺), cobalt (Co²⁺), copper (Cu²⁺), iron (Fe²⁺ and Fe³⁺), mercury (Hg²⁺), manganese (Mn²⁺), and zinc (Zn²⁺), plus aluminium (Al³⁺) (a toxic metal in polluted areas), on pollen germination and tube growth ofLilium longiflorum was investigated using light microscopy. Effects could be observed with 3 M and 100 M of heavy metal, added as chloride salts to the medium. Cd²⁺, Cu²⁺, and Hg²⁺, showed the greatest toxicity, whereas germination and growth rate was less affected by Mn²⁺. Affected tubes showed swelling of the tip region. Tubes treated with Cd²⁺, Co²⁺, Fe²⁺, Fe³⁺, Hg²⁺, and Mn²⁺ were also prepared for ultrastructural studies. In all cases, the main effect was abnormal cell wall organization, mostly at the tip, where round, fibrillar aggregates, the shape and size of secretory Golgi vesicles were formed. They built up a loose network which could be up to 10 m thick compared to untreated tubes where the cell wall was composed of thin layers of long fibrils and about 100 nm thick. Cd²⁺ was the only metal which produced effects at the intracellular level: organelle distribution within the tip region appeared disorganized. A general mechanism of heavy metal action on pollen tube growth is discussed.     

Diacylglycerol downregulates junctional membrane permeability. TMB-8 blocks this effect

Summary We tested the question whether junctional cell-to-cell communication is regulated by the diacylglycerol branch of the phosphoinositide transmembrane signal pathway. Cultured epithelial rat liver cells were treated with the synthetic diacylglycerol 1-oleoyl-2-acetyl glycerol, while their junctional permeability was probed with the microinjected 443-dalton fluorescent tracer Lucifer Yellow. The treatment reduced junctional permeability (without affecting Lucifer permeability of nonjunctional cell membrane). The effect was dose dependent, with a threshold of about 25 g diacylglycerol/ml in sparse cultures and about 50 g/ml in confluent cultures. The reduction of junctional permeability began within 3 min of diacylglycerol application, peaked within 20 min, and reversed spontaneously within 90 min. The phorbol ester TPA mimicked the diacylglycerol effect, but the (spontaneous) reversal was slower. We propose that cell-to-cell communication is under dual physiological control: an upregulatory one, as exerted by the cyclic AMP signal route (Loewenstein, W.R., 1985,Biochem. Soc. Symp. London,50: 43–58), and a downregulatory one, by the diacylglycerol signal route.TMB-8 (54–70 m)—a blocker of intracellular Ca²⁺ mobilization-impeded the diacylglycerol action on junctional permeability. It prevented the effect of low diacylglycerol doses completely and it markedly reduced the effect of high doses. (It also counteracted the effect of TPA.) Ca²⁺ thus emerges as a possible candidate for a role in the junctional downregulation by the diacylglycerol signal route. We tentatively advance two models. In one, leaning closely on the Calcium Hypothesis of cell-to-cell channel regulation (Loewenstein, W.R., 1966,Ann. N.Y. Acad. Sci. 137:441–472), Ca²⁺ mediates the action of the route on the channel. In the other, Ca²⁺ acts farther removed from the channel, on protein kinase C.Calmidazolium (5–10 m)—an inhibitor of calmodulin-activated proteins—did not prevent the diacylglycerol-induced reduction of junctional permeability. Nor did sodium orthovanadate (25 or 50 m)—an inhibitor of tyrosyl phosphatase-prevent the reversal of diacylglycerol-induced (or TPA-induced) reduction of junctional permeability.     

Bacterial ferrochelatase turns human: Tyr13 determines the apparent metal specificity of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> ferrochelatase

Ferrochelatase catalyzes the insertion of Fe²⁺ into protoporphyrin IX. The enzymatic product heme (protoheme IX) is a well-known cofactor in a wide range of proteins. The insertion of metal ions other than Fe²⁺ occurs rarely in vivo, but all ferrochelatases that have been studied can insert Zn²⁺ at a good rate in vitro. Co²⁺, but not Cu²⁺, is known to be a good substrate of the mammalian and Saccharomyces cerevisiae ferrochelatases. In contrast, Cu²⁺, but not Co²⁺, has been found to be a good substrate of bacterial Bacillus subtilis ferrochelatase. It is not known how ferrochelatase discriminates between different metal ion substrates. Structural analysis of B. subtilis ferrochelatase has shown that Tyr13 is an indirect ligand of Fe²⁺ and a direct ligand of a copper mesoporphyrin product. A structure-based comparison revealed that Tyr13 aligns with a Met residue in the S. cerevisiae and human ferrochelatases. Tyr13 was changed to Met in the B. subtilis enzyme by site-directed mutagenesis. Enzymatic measurements showed that the modified enzyme inserted Co²⁺ at a higher rate than the wild-type B. subtilis ferrochelatase, but it had lost the ability to use Cu²⁺ as a substrate. Thus, the B. subtilis Tyr13Met ferrochelatase showed the same metal specificity as that of the ferrochelatases from S. cerevisiae and human.     

Temperature dependencies and apparent activation energies of stomatal opening and closing

Summary Stomatal opening movements in response to illumination, and stomatal closure following darkening were studied in leaf sections of Zea mays, using air-flow porometers. Stomatal opening is characterized by a phase of linear increase of air flow through the leaf (slope = opening velocity); stomatal closure follows a relaxation curve from which a time constant (closing coefficient) can be derived.Apparent energies of activation, , were computed for the opening velocity and for the closing coefficient from stomatal movements recorded at tissue temperatures between 5° and 50°. It was assumed that the closing coefficient can be used as a measure of the closing force, and that the opening force has to exceed the closing force in order to bring about stomatal opening. is about 7 kcal mole^-1 for the closing coefficient and between 12 and 18 kcal mole^-1 for the opening force. Thus, during stomatal opening, metabolism must provide energy to build up a pressure difference between guard cells and the surrounding tissue.The process controlling the velocity of closure is essentially a passive loss of water (and solutes?) from the guard cells. The of 7 kcal mole^-1 found for the closing coefficient is, however, higher than that for the viscosity of water or for the coefficient of self diffusion of water. It is, therefore, concluded either that water interacts with the cell structures which it has to permeate during stomatal closure, or that the rate of salt loss from guard cells controls the velocity of stomatal closure.The closing force decreases when leaf temperature rises above 35° or falls below 15°. Therefore, stomata of maize open relatively faster and wider above 35° and below 15°, and the 's of the opening velocity appear to be very large above 35° (up to 50 kcal mole^-1) while they have a negative sign below 15°.Research supported by the U.SS. Atomic Energy Commission under contract AT (11-1) 1338. I thank Miss Freia Schulz-Baldes for interested technical assistance.     

Cadmium-induced apoptosis in C6 glioma cells: Mediation by caspase 9-activation

The induction of apoptotic cell death by cadmium was investigated in eight mammalian cell lines. Great differences in the cytotoxicity of cadmium were found with different cell lines: Rat C6 glioma cells turned out to be most sensitive with an IC₅₀-value of 0.7 M, while human A549 adenocarcinoma cells were relatively resistant with an IC₅₀-value of 164 M CdCl₂. The mode of cadmium-induced cellular death was identified to involve apoptotic DNA fragmentation in three cell lines, i.e., in C6 glioma cells, E367 neuroblastoma cells and NIH3T3 fibroblasts. In C6 glioma cells, this process was investigated in detail. Internucleosomal DNA-fragmentation occurred 40 h after application of CdCl₂ and was concentration-dependent between 1–100 M CdCl₂, followed by a decrease at higher concentrations due to necrotic processes. Apoptotic chromatin-condensation and nuclear fragmentation was observed 48 h after application of 2.5 M CdCl₂. Furthermore, cadmium (1 M, 48 h) caused a breakdown of the mitochondrial membrane potential as shown by the decline in mitochondrial uptake of rhodamine 123. Also, we found an activation of caspase 9, a protease known to be activated in apoptotic processes following mitochondrial damage. Besides Cd²⁺, other toxic heavy metal ions (Hg²⁺, Pb²⁺, Ni²⁺, Fe²⁺, CrO₄ ^2–, Cu²⁺ or Co²⁺) did not induce apoptotic DNA fragmentation in C6 cells. The only exception was Zn²⁺ which caused apotosis at high concentrations (>150 M) whereas it protected against cadmium-induced apoptosis at low concentrations (10–50 M).     

Iron-efficient and iron-inefficient oats and corn respond differently to iron-deficiency stress

Iron-efficient (WF9 corn and Coker 227 oat) and Fe-inefficient (ys₁ corn and TAM 0–312 oat) cultivars were comparatively tested for their response to Fe-deficiency stress induced by the use of either ferrous or ferric chelators. Corn and oats were grown in 20 M Fe with 0, 60, and 120 M BPDS and 40 M Fe with 0, 120, and 240 M BPDS and 20 M Fe with 0 and 40 M EDDHA. All four cultivars tested, both Fe-efficient and Fe-inefficient, continuously reduced Fe³⁺ to Fe²⁺ at a low level as evidenced by the production of Fe²⁺ (BPDS)₃ in test nutrient solutions over time. Severity of chlorosis increased as more BPDS was added to the nutrient solutions for both WF9 and ys₁ corn, but unlike corn, Coker 227 and TAM 0-312 oats were both able to obtain Fe from the Fe²⁺ (BPDS)₃ complex and were less chlorotic as a result. In short-term (4-hour) in vivo measurements, iron-stressed WF9 (Fe-efficient) corn reduced more Fe³⁺ to Fe²⁺ than similarly stressed ys₁ corn, Coker 227 oat or TAM 0-312 oat. Thus, at the same time that Fe-efficient WF9 corn reduces more Fe than the other cultivars, it is also unable to compete with BPDS for that Fe in the nutrient solution. These differences coupled with the observation that only Coker 227 oat produced measureable iron solubilizing substances (phytosiderophores) suggest that these two species differ in their mechanisms for obtaining Fe during Fe-deficiency stress.     

Effect of culture medium ions on chromate reduction by resting cells of Agrobacterium radiobacter

The influence of some ions in pre-growth culture medium on chromate reduction by resting cells of Agrobacterium radiobacter strain EPS-916 was investigated. The reduction was dependent on the Fe²⁺ content of the culture medium: the higher the iron content, the lower the reduction rate. The cells showed maximum chromate reduction when pre-grown in the presence of 0.243 m Mg²⁺, 20 m Ca²⁺ and 3.6 m Mn²⁺. Chromate reduction was not affected by the addition of MgCl₂, CdCl₂, ZnCl₂, MnCl₂, Na₂SO₄ (1000 m), and Na₂MoO₄ (100 m) to the activity assays. However, activity was inhibited by the presence of Na₂SO₄ (10 mm), Na₂MoO₄ (200 m) and ferric citrate.     

Purification and characterization of an<Emphasis Type="Italic"> N</Emphasis>-acetylglucosaminidase produced by a<Emphasis Type="Italic"> Trichoderma harzianum</Emphasis> strain which controls<Emphasis Type="Italic"> Crinipellis perniciosa</Emphasis>

Isolate 1051 of Trichoderma harzianum, a mycoparasitic fungus, was found to impair development of the phytopathogen, Crinipellis perniciosa, in the field. This Trichoderma strain growing in liquid medium containing chitin produced substantial amounts of chitinases. The N-acetylglucosaminidase present in the culture-supernatant was purified to homogeneity by gel filtration and hydrophobic interaction chromatography, as demonstrated by SDS-PAGE analysis. The enzyme had a molecular mass of 36 kDa and hydrolyzed the synthetic substrate -nitrophenyl-N-acetylglucosaminide (NGlcNAc) with Michaelis–Menten kinetics. Maximal activities were determined at pH 4.0 and a temperature range of 50–60°C. K _m and V _max values for NGlcNAc hydrolysis were 8.06 moles ml^–1 and 3.36 moles ml^–1 min^–1, respectively, at pH 6.0 and 37°C. The enzyme was very sensitive to Fe³⁺, Mn²⁺ and Co²⁺ ions, but less sensitive to Zn²⁺, Al³⁺, Cu²⁺ and Ca²⁺. Glucose at a final concentration of 1 mM inhibited 65% of the original activity of the purified enzyme. Determination of the product (reducing sugar) of hydrolysis of C. perniciosa mycelium and scanning electron microscopic analysis revealed that the N-acetylglucosaminidase hydrolyses the C. perniciosa cell wall.     

Divalent cation effects on calcineurin phosphatase: differential involvement of hydrophobic and metal binding domains in the regulation of the enzyme activity

Summary The effects of divalent metals, metal chelators (EDTA, EGTA) and sodium dodecyl sulfate were investigated on the phosphatase activity of isolated bovine brain calcineurin assayed in the absence (called intrinsic) and presence of calmodulin. Intrinsic phosphatase was increased by Mn²⁺, was unaffected by Mg²⁺, Ca^2–, and Ba⁺, and was markedly inhibited by Ni^2–, Fe²⁺, Zn²⁺ and Cu^2–. When assayed in the presence of calmodulin, many divalent metals (Ni^2–, Zn²⁺, Pb²⁺, Cd²⁺), besides Mn²⁺, increased modestly the phosphatase activity at low concentrations (10–100 M) and inhibited it markedly at high concentrations. Ca^2–-calmodulin stimulated phosphatase activity was antagonized by Ni²⁺, Zn²⁺, Fe²⁺, Cu²⁺, Pb²⁺, at low concentrations (50 M), and by Ba²⁺, Cd²⁺ at slightly higher concentrations (> 100 M); Mn²⁺ and Co^2– (50 M to 1 mM) in fact augmented it. EDTA and EGTA in a concentration and time dependent fashion inhibited the intrinsic phosphatase activity, particularly that of trypsinized calcineurin. SDS in low concentrations (0.005%) augmented the phosphatase activity and inhibited it at high concentrations. Mn²⁺ (± calmodulin) and Ca²⁺ only with calmodulin present increased the phosphatase activity assayed with low concentrations of SDS. The EDTA dependent inhibition of intrinsic phosphatase was almost abolished in assays containing SDS. Prior exposure of calcineurin to Mn²⁺ led to a high activity conformation state of calcineurin that was long-lived or pseudo-irreversible. Such Mn²⁺-activated state of calcineurin exhibited no discerbible change in the affinity towards myelin basic protein or its inhibition by trifluoperazine. At alkaline pH, Mg²⁺ supported the intrinsic phosphatase activity, although to a lesser degree than Mn²⁺. The latter cation, compared to Mg²⁺ and Ni²⁺, was also a more powerful stimulator of the calcineurin phosphatase assayed with histone (III-S) and myosin light chain as substrates.     

Respiration rates of Chiloplacus sp. and other arctic nematodes at low and high temperatures

Summary Respiration of an undescribed species of soil nematode of the genus Chiloplacus from the Canadian High Arctic was measured at 2°, 5°, 10°, 15°, 20° and 25°C. The corresponding metabolic rates were 0.2697×10^-3 l, 0.3406×10^-3 l, 0.8408×10^-3 l, 0.8539×10^-3 l, 1.8420×10^-3 l and 2.9360×10^-3 l O₂ ind^-1 h^-1, respectively, for a nematode of 1.0 g dry weight. The relationship between respiration and dry weight for Chiloplacus sp. at 10°C is described by the function log R=-3.0693+0.8844 log W. Q₁₀ values for the 2°–5°, 5°–10°, 10°–15°, 15°–20° and 20°–25°C temperature intervals were 2.18, 6.09, 1.03, 4.65 and 2.54, respectively. Chiloplacus sp. showed raised metabolic rates at low tempetatures compared with species from warmer environments. Metabolic rates of representative samples of the soil, nematode fauna (dominated by individuals of the genus Plectus) from the same location were 0.1593×10^-3 l, 0.3603×10^-3 l and 0.5332×10^-3 l O₂ ind^-1 h^-1 at 5°, 10° and 15°C for an average nematode of 0.4297 g dry weight.     

Ultrastructure of Sporothrix schenckii treated with iodine-potassium iodide solution

The ultrastructural changes produced by iodine-potassium iodide solution on yeast cells of Sporothrix schenckii were investigated by transmission electron microscopy in order to clarify the mechanism of oral potassium iodide therapy for sporotrichosis. Yeast cells were dipped with solutions containing various concentrations of iodine. The rate of germination decreased markedly between the range of iodine concentrations from 0.63 g/ml to 5.0 g/ml. No significant ultrastructural changes were seen at the concentration of the iodine of 1.25 g/ml (80% germination) or less. In the concentration of 2.5 g/ml (50% germination), normal cells and degenerated cells coexisted. When the cells were treated with 5.0 g of iodine per ml (0% germination) or more, their interior structures were completely destroyed. It is assumed that iodine treatment of the organism causes rapid destruction in the whole cell.     

Neurotoxic effects of copper: Inhibition of glycolysis and glycolytic enzymes

The effects of Cu²⁺ on glycolysis and several glycolytic enzymes were studied in rat brain extracts in vitro. At concentrations reportedly found in Wilson's disease, Cu²⁺ significantly inhibited lactate production from glucose or glucose-6-phosphate in rat brain postnuclear supernatant with an IC₅₀ of about 3 M. Cu²⁺ also inhibited several glycolytic enzymes. Amongst the latter, Cu²⁺ was most effective in inhibiting hexokinase (IC₅₀ for Cu²⁺=7 M), moderately effective in inhibiting pyruvate kinase (IC₅₀ for Cu²⁺=56 M), but least effective in inhibiting lactate dehydrogenase (IC₅₀ for Cu²⁺=300 M). These results suggest that inhibition of brain glycolysis may have pathophysiological importance in copper poisoning and in Wilson's disease.     

Molecular Properties of Purified Human Uncoupling Protein 2 Refolded from Bacterial Inclusion Bodies

One way to study low-abundance mammalian mitochondrial carriers is by ectopically expressing them as bacterial inclusion bodies. Problems encountered with this approach include protein refolding, homogeneity, and stability. In this study, we investigated protein refolding and homogeneity properties of inclusion body human uncoupling protein 2 (UCP2). N-methylanthraniloyl-tagged ATP (Mant-ATP) experiments indicated two independent inclusion body UCP2 binding sites with dissociation constants (K _d) of 0.3–0.5 and 23–92 M. Dimethylanthranilate, the fluorescent tag without nucleotide, bound with a K _d of greater than 100 M, suggesting that the low affinity site reflected binding of the tag. By direct titration, UCP2 bound [8-¹⁴C] ATP and [8-¹⁴C] ADP with K _ds of 4–5 and 16–18 M, respectively. Mg²⁺ (2 mM) reduced the apparent ATP affinity to 53 M, an effect entirely explained by chelation of ATP; with Mg²⁺, K _d using calculated free ATP was 3 M. A combination of gel filtration, Cu²⁺-phenanthroline cross-linking, and ultracentrifugation indicated that 75–80% of UCP2 was in a monodisperse, 197 kDa form while the remainder was aggregated. We conclude that (a) Mant-tagged nucleotides are useful fluorescent probes with isolated UCP2 when used with dimethylanthranilate controls; (b) UCP2 binds Mg²⁺-free nucleotides: the K _d for ATP is about 3–5 M and for Mant-ATP it is about 10 times lower; and (c) in C₁₂E₉ detergent, the monodisperse protein may be in dimeric form.     

Isolation and characterization of a toxic intracellular protein from Vibrio parahaemolyticus

A toxic factor released from disrupted cells of Vibrio parahaemolyticus was partially purified by gel filtration after precipitation with (NH₄)₂SO₄ at 40% saturation. The factor, which was a thermostable protein of 63 kDa, lysed human erythrocytes at a concentration of 0.15 g ml^-1. Its LD₅₀ by intravenous injection into mice was 6.4 g. Fluid accumulated in suckling mice force-fed with the toxic material (1 to 25 g). Haemolytic activity, which occurred maximall at 37°C and pH 7.0 was enhanced by Ca²⁺, Cu²⁺ and Zn²⁺, each at 1 mm. Anti-toxic-factor serum agglutinated V. parahaemolyticus cells. The factor may play a role in the pathogenesis of V. parahaemolyticus infections and in the host's defence mechanisms against infection by the microorganism.