Comparative Study of Different Iron Compounds in Inhibition of Sphaerotilus Growth

The effectiveness of iron compounds on growth inhibition of Sphaerotilus species was compared. In this study, two strains of Sphaerotilus were tested with different iron concentrations in a synthetic sewage (S-medium) as formulated by Lackey and Wattie (Sewage Works J. 12:669-684, 1940). For both strains, >80% inhibition of the maximum respiration rate was obtained by the following levels of soluble iron concentrations at pH 6.0: iron citrate, 20 mg/liter as Fe; iron cysteine, 5 mg/liter as Fe; and ferrous sulfate, 10 mg/liter as Fe. At a pH of 6.7 with iron citrate (20 mg/liter as Fe), inhibition of both strains was in excess of 50%. Insoluble iron compounds, such as iron hydroxides and ferrous carbonate, were found to be much less effective than the soluble iron compounds as inhibitors of these two strains. Aged iron hydroxide (500 mg/liter as Fe) produced a 70% inhibition in the maximum respiration rate while fresh iron hydroxide (52 mg/liter as Fe) and ferrous carbonate (500 mg/liter as Fe) produced a 20% inhibition. Chemical analyses of the iron-inhibited Sphaerotilus strains showed a close relationship between the inhibition of the organism's growth and the amount of iron sorbed by the organism.     

What's new is old: resolving the identity of Leptothrix ochracea using single cell genomics, pyrosequencing and FISH

Leptothrix ochracea is a common inhabitant of freshwater iron seeps and iron-rich wetlands. Its defining characteristic is copious production of extracellular sheaths encrusted with iron oxyhydroxides. Surprisingly, over 90% of these sheaths are empty, hence, what appears to be an abundant population of iron-oxidizing bacteria, consists of relatively few cells. Because L. ochracea has proven difficult to cultivate, its identification is based solely on habitat preference and morphology. We utilized cultivation-independent techniques to resolve this long-standing enigma. By selecting the actively growing edge of a Leptothrix-containing iron mat, a conventional SSU rRNA gene clone library was obtained that had 29 clones (42% of the total library) related to the Leptothrix/Sphaerotilus group (≤96% identical to cultured representatives). A pyrotagged library of the V4 hypervariable region constructed from the bulk mat showed that 7.2% of the total sequences also belonged to the Leptothrix/Sphaerotilus group. Sorting of individual L. ochracea sheaths, followed by whole genome amplification (WGA) and PCR identified a SSU rRNA sequence that clustered closely with the putative Leptothrix clones and pyrotags. Using these data, a fluorescence in-situ hybridization (FISH) probe, Lepto175, was designed that bound to ensheathed cells. Quantitative use of this probe demonstrated that up to 35% of microbial cells in an actively accreting iron mat were L. ochracea. The SSU rRNA gene of L. ochracea shares 96% homology with its closet cultivated relative, L. cholodnii, This establishes that L. ochracea is indeed related to this group of morphologically similar, filamentous, sheathed microorganisms.     

A novel triterpenoid 16-hydroxy betulinic acid isolated from Mikania cordata attributes multi-faced pharmacological activities

The aerial parts of extensively used ethnomedicinal plant Mikania cordata (Burm. f.) Robinson growing wild in Bangladesh were investigated to isolate and characterize compounds responsible for the bioactivities of the plant. In the present study, a new derivatives of betulinic acid, 16-hydroxy betulinic acid [3β,16-dihydroxy-lup-20(29)-en-28-oic] was isolated and the structure of the compound was determined by NMR spectroscopic means and comparing with available literature data. The isolated compound was then investigated for different pharmacological activities including antibacterial, antifungal, analgesic, anti-inflammatory and antipyretic potential employing different methods. The compound showed potent antibacterial activity with inhibition zone of diameter ranging from 12.0 to 17.5?mm and antifungal activity with mycelial growth inhibition ranging from 37.6 to 54.5%. The MIC values for antibacterial and antifungal activities ranged from 31.5–125 and 250–1000?μg/mL respectively. The compound (50 and 100?mg/kg body weight) showed potent peripheral and central analgesic activity with 55.19% and 41% of writhing inhibition at 90?min after administration of the compound and the highest 55.98%, 79.18% elongation of reaction time, respectively. In anti-inflammatory activity screening, the compound (100?mg/kg b.w.) revealed the highest 77.08% edema inhibition at 4?h after administration of carrageenan. In antipyretic assay, 16-hydroxy betulinic acid displayed a strong antipyretic effect in yeast-induced rats. From the present study it is apparent that 16-hydroxy betulinic acid might play vital role to establish M. cordata as ethnomedicinal plant to treat wound, cuts and fever.     

Investigation of an Iron-Oxidizing Microbial Mat Community Located near Aarhus, Denmark: Field Studies

We investigated the microbial community that developed at an iron seep where anoxic groundwater containing up to 250 μM Fe²⁺ flowed out of a rock wall and dense, mat-like aggregations of ferric hydroxides formed at the oxic-anoxic interface. In situ analysis with oxygen microelectrodes revealed that the oxygen concentrations in the mat were rarely more than 50% of air saturation and that the oxygen penetration depth was quite variable, ranging from <0.05 cm to several centimeters. The bulk pH of the mat ranged from 7.1 to 7.6. There appeared to be a correlation between the flow rates at different subsites of the mat and the morphotypes of the microorganisms and Fe oxides that developed. In subsites with low flow rates (<2 ml/s), the iron-encrusted sheaths of Leptothrix ochracea predominated. Miniature cores revealed that the top few millimeters of the mat consisted primarily of L. ochracea sheaths, only about 7% of which contained filaments of cells. Deeper in the mat, large particulate oxides developed, which were often heavily colonized by unicellular bacteria that were made visible by staining with acridine orange. Direct cell counts revealed that the number of bacteria increased from approximately 10⁸ to 10⁹ cells per cm³ and the total iron concentration increased from approximately 0.5 to 3 mmol/cm³ with depth in the mat. Primarily because of the growth of L. ochracea, the mat could accrete at rates of up to 3.1 mm/day at these subsites. The iron-encrusted stalks of Gallionella spp. prevailed in localized zones of the same low-flow-rate subsites, usually close to where the source water emanated from the wall. These latter zones had the lowest O₂ concentrations (<10% of the ambient concentration), confirming the microaerobic nature of Gallionella spp. In subsites with high flow rates (>6 ml/s) particulate Fe oxides were dominant; direct counts revealed that up to 10⁹ cells of primarily unicellular bacteria per cm³ were associated with these particulate oxides. These zones exhibited little vertical stratification in either the number of cells or iron concentration. Finally, mat samples incubated anaerobically in the presence of acetate or succinate exhibited significant potential for iron reduction, suggesting the possibility that a localized iron cycle could occur within the mat community.     

Process development for degradation of phenol by Pseudomonas putida in hollow-fiber membrane bioreactors

The degradation of phenol (100-2800 mg/L) by cells Pseudomonas putida CCRC14365 in an extractive hollow-fiber membrane bioreactor (HFMBR) was studied, in which the polypropylene fibers were prewetted with ethanol. The effects of flow velocity, the concentrations of phenol, and the added dispersive agent tetrasodium pyrophosphate on phenol degradation and cell growth were examined. It was shown that about 10% of phenol was sorbed on the fibers at the beginning of the degradation process. The cells P. putida fully degraded 2000 mg/L of phenol within 73 h when the cells were immobilized and separated by the fibers. Even at a level of 2800 mg/L, phenol could be degraded more than 90% after 95-h operation. At low phenol levels (< 400 mg/L) where substrate inhibition was not severe, it was more advantageous to treat the solution in a suspended system. At higher phenol levels (> 1000 mg/L), however, such HFMBR-immobilized cells could degrade phenol to a tolerable concentration with weak substrate-inhibition effect, and the degradation that followed could be completed by suspended cultures due to their larger degradation rate. The process development in an HFMBR system was also discussed.     

Selective Inhibition of the Oxidation of Ferrous Iron or Sulfur in Thiobacillus ferrooxidans

The oxidation of either ferrous iron or sulfur by Thiobacillus ferrooxidans was selectively inhibited or controlled by various anions, inhibitors, and osmotic pressure. Iron oxidation was more sensitive than sulfur oxidation to inhibition by chloride, phosphate, and nitrate at low concentrations (below 0.1 M) and also to inhibition by azide and cyanide. Sulfur oxidation was more sensitive than iron oxidation to the inhibitory effect of high osmotic pressure. These differences were evident not only between iron oxidation by iron-grown cells and sulfur oxidation by sulfur-grown cells but also between the iron and sulfur oxidation activities of the same iron-grown cells. Growth experiments with ferrous iron or sulfur as an oxidizable substrate confirmed the higher sensitivity of iron oxidation to inhibition by phosphate, chloride, azide, and cyanide. Sulfur oxidation was actually stimulated by 50 mM phosphate or chloride. Leaching of Fe and Zn from pyrite (FeS₂) and sphalerite (ZnS) by T. ferrooxidans was differentially affected by phosphate and chloride, which inhibited the solubilization of Fe without significantly affecting the solubilization of Zn.     

Chronic inhibition of nitric oxide synthase activity by N(G)-nitro-L-arginine induces nitric oxide synthase expression in the developing rat cerebellum

Studies on chronic inhibition of nitric oxide synthase (NOS) in the CNS suggest a plastic change in nitric oxide (NO) synthesis in areas related to motor control, which might protect the animal from the functional and behavioral consequences of NO deficiency. In the present study, the acute and chronic effect of the substrate analogue inhibitor N(G)-nitro-l-arginine (l-NNA) was examined on NO production, NO-sensitive cyclic guanosine monophosphate (cGMP) levels and the expression of NOS isoforms in the developing rat cerebellum. Acute intraperitoneal administration of the inhibitor (5-200mg/kg) to 21-day-old rats reduced NOS activity and NO concentration dose dependently by 70-90% and the tissue cGMP level by 60-80%. By contrast, chronic application of l-NNA between postnatal days 4-21 diminished the total NOS activity and NO concentration only by 30%, and the tissue cGMP level by 10-50%. Chronic treatment of 10mg/kg l-NNA induced neuronal (n)NOS expression in granule cells, as revealed by in situ hybridization, NADPH-diaphorase histochemistry and Western-blot, but it had no significant influence on tissue cGMP level or on layer formation of the cerebellum. However, a higher concentration (50mg/kg) of l-NNA decreased the intensity of the NADPH-diaphorase reaction in granule cells, significantly reduced cGMP production, and retarded layer formation and induced inducible (i)NOS expression & activity in glial cells. Treatments did not affect endothelial (e)NOS expression. The administration of the biologically inactive isomer D-NNA (50mg/kg) or saline was ineffective. The present findings suggest the existence of a concentration-dependent compensatory mechanism against experimentally-induced cronich inhibition of NOS, including nNOS or iNOS up-regulation, which might maintain a steady-state NO level in the developing cerebellum.     

Growth inhibition of Candida albicans by folate pathway inhibitors. Their potential in the selection of auxotrophs

Growth studies were conducted on C. albicans in a glucose — salts — biotin (GSB) medium in the presence of folate inhibitors. Sulfanilamide inhibited growth which was restored by PABA or tetrahydrofolate (THF). Aminopterin inhibited growth to about the same level as did sulfanilamide, but this inhibition was not reversed with PABA nor THF, singly or in combination. Inhibition by combined sulfanilamide and aminopterin was synergistic, reducing growth by more than 90% for 48 h. The sulfanilamide component of the combined inhibition was reversed by PABA or THF to the level of that of aminopterin alone. Cytochrome synthesis was not affected by the inhibitors, but marked increases occurred in -ketoglutarate, malate, isocitrate, and pyruvate dehydrogenases, especially in the presence of both inhibitors. The pyrimidines in combination with sulfanilamide were as inhibitory as was the combination of aminopterin and sulfanilamide, but they had no effect when added alone or in combination with aminopterin. Unlike the pyrimidines, the purines stimulated about a 50% recovery from inhibition by either of the inhibitors. Growth inhibition by combined sulfanilamide and aminopterin was overcome by about 50% by the addition of the THF-mediated end-produits: deoxythymidylate, adenine, histidine and methionine. The use of GSB medium containing adenine, histidine, methionine and the folate inhibitors but without deoxythymidylate resulted in thymineless death of prototrophic cells providing a method for the selection of auxotrophic mutants.     

Multi-enzyme inhibition assay for the detection of insecticidal organophosphates and carbamates by high-performance thin-layer chromatography applied to determine enzyme inhibition factors and residues in juice and water samples

Esterase inhibition assays provide an effect-directed tool of rapid screening for inhibitors in environmental and food samples. According to a multi-enzyme microtiter-plate assay, rabbit liver esterase (RLE), Bacillus subtilis esterase (BS2), and cutinase from Fusarium solani pisi (CUT) were used for the detection of 21 organophosphorus and carbamate pesticides by high-performance thin-layer chromatography–enzyme inhibition assays (HPTLC–EI). Staining was performed with Fast Blue Salt B coupling to α-naphthol enzymatically released from the respective acetate used as substrate. Quantitative analysis was achieved by densitometric evaluation at 533 nm. Enzyme inhibition factors derived from HPTLC–EI were calculated from the slopes of the linear calibration curves, which allowed comparisons to published inhibition constants and well correlated to sensitivity parameters. Limits of detection ranged from a few pg/zone for organophosphates as strongest inhibitors to a few ng/zone for most carbamates, when RLE and BS2 were used. Without oxidation, chlorpyrifos and parathion were directly detectable at approximately 60 and 14 ng/zone, respectively. As the enzyme of lowest sensitivity, CUT was able to detect insecticides of high and low inhibitory power from the ng to μg range per zone. Due to high selectivity of enzyme inhibition, oxon impurities of thionophosphate standards were strongly detected, although only present in low traces. The exemplary application of HPTLC–EI (RLE) to apple juice and drinking water samples spiked with paraoxon (0.001 mg/L), parathion (0.05 mg/L) and chlorpyrifos (0.5 mg/L) resulted in mean recoveries between 71 and 112% with standard deviations of 2.0–18.3%.     

Detection of inhibitors of protein and nucleic acid synthesis using oocytes of Xenopus laevis microinjected with the herpes thymidine kinase gene

We have developed an assay that measures the inhibition of protein synthesis and can be used in conjunction with a whole embryo bioassay that detects the ability of a chemical to cause fetotoxicity, malformation and abnormal growth. The assay involves microinjecting the herpes thymidine kinase gene into stage 6 oocytes of Xenopus laevis then exposing the oocytes to a test compound for 18-24 h. The inhibition of thymidine kinase (TK) expression caused by an inhibitor is then measured by simple enzyme assay. Protein synthesis inhibitors such as cycloheximide, puromycin and emetine all inhibited TK synthesis. Concentrations of cycloheximide (1.4 X 10(-4) mg/ml) and puromycin (0.04 mg/ml) near the 96 h embryo LC50 inhibited thymidine kinase expression by 78% and 97%, respectively but emetine (0.01 mg/ml) had no effect. However, 0.1 mg/ml emetine inhibited TK synthesis by almost 50%. The RNA synthesis inhibitor, actinomycin D (0.013 mg/ml) inhibited TK expression by 61%. DNA synthesis inhibitors hydroxyurea (2.0 mg/ml), cytosine arabinoside (2.0 mg/ml) and ethidium bromide (0.02 mg/ml) failed to inhibit the expression of the TK gene even though these concentrations were near the 96 h embryo LC50. The whole embryo bioassay cannot differentiate the DNA synthesis inhibitors from the RNA and protein synthesis inhibitors but the oocyte assay can. This type of molecular test data can help separate classes of teratogens such as DNA synthesis inhibitors from nonteratogenic compounds such as protein synthesis inhibitors and allow the extrapolation of test data to other species.     

Antitumor and toxicologic properties of the organometallic anticancer agent vanadocene dichloride

We report here on the antineoplastic, toxicologic, and transmembrane transfer properties of vanadocene dichloride (VDC), a representative metallocene dihalide. VDC is cytotoxic to HEp-2 human epidermoid carcinoma cells, in vitro, in a dose dependent manner, with a D_o value (dose increment reducing the survival fraction by 1/e) of 0.530 ± 0.005 μg/ml. Under similar experimental conditions, the D_o for cisplatin (CDDP) against these cells is 0.46 ± 0.08 μg/ml. In a murine mammary adenocarcinoma (TA3Ha) system, 125 μg/ml VDC inhibits the tumor-forming ability of 10⁵ cells upon i.p. inoculation into syngeneic Strain A mice. The transmembrane transfer rate constants for the metal uptake of VDC and CDDP by TA3Ha cells in vitro were found to be 3.3 ± 0.8 × 10⁻⁴ min⁻¹ and 12 ± 2.0 × 10^t-4 min⁻¹, respectively. In vivo studies with TA3Ha cells show that two i.p. treatments of 20, 40, and 60 mg/kg VDC increase the host survival by 30, 50, and 90%, respectively. Under similar conditions, 2, 4, and 6 mg/kg CDDP (equitoxic dose levels) prolong the host survival 50, 75, and 83%, respectively. Morphological, blood urea nitrogen level, and serum creatinine level data for Strain A mice treated with 60 mg/kg VDC give no evidence of renal or small intestinal damage. However, changes in the liver consistent with fatty cell degeneration are observed in these mice.     

Uptake of Fluorescent Iron Oxide Nanoparticles by Oligodendroglial OLN-93 Cells

To investigate the cellular accumulation and intracellular localization of dimercaptosuccinate-coated iron oxide nanoparticles (D-IONPs) in oligodendroglial cells, we have synthesized IONPs that contain the fluorescent dye BODIPY (BP) in their coat (BP-D-IONPs) and have investigated the potential effects of the absence or presence of this dye on the particle uptake by oligodendroglial OLN-93 cells. Fluorescent BP-D-IONPs and non-fluorescent D-IONPs had similar hydrodynamic diameters and ζ-potentials of around 60 nm and ?58 mV, respectively, and showed identical colloidal stability in physiological media with increasing particle size and positivation of the ζ-potential in presence of serum. After exposure of oligodendroglial OLN-93 cells to BP-D-IONPs or D-IONPs in the absence of serum, the specific cellular iron content increased strongly to around 1,800 nmol/mg. This strong iron accumulation was lowered for both types of IONPs by around 50 % on exposure of the cells at 4 °C and by around 90 % on incubation in presence of 10 % serum. The accumulation of both D-IONPs and BP-D-IONPs in the absence of serum was not affected by endocytosis inhibitors, whereas in the presence of serum inhibitors of clathrin-dependent endocytosis lowered the particle accumulation by around 50 %. These data demonstrate that oligodendroglial cells efficiently accumulate IONPs by an endocytotic process which is strongly affected by the temperature and the presence of serum and that BP-D-IONPs are a reliable tool to monitor by fluorescence microscopy the uptake and cellular fate of D-IONPs.     

Evaluation of Nutritional and Antioxidant Status of Lepidium latifolium Linn.: A Novel Phytofood from Ladakh

Lepidium latifolium Linn. (perennial pepperweed) is one of the preferred phytofoods among cold arid region of Ladakh, India and its leaves contribute significantly to people''s diet. This study was conducted to determine its nutritive value and antioxidant activity. Plant samples from three different locations were selected in the present study. Results showed that this plant is an excellent source of glucosinolates, notably sinigrin that is present in very high amount (∼70–90%). Its value ranged from 149 to 199 µg per g fresh weight. Fatty acid composition analysis showed that its leaves were abundant in unsaturated fatty acids, specifically linolenic acid (18∶3) whose percentage is about 50%. Higher glucose and crude protein along with higher nitrogen to sulfur ratio, supplements the nutritive value of this plant. Based on total phenol, flavanoids, free radical scavenging activity and DNA protective activity showed that this ecotype of perennial pepperweed contains high antioxidant properties. The percentage inhibition for O₂ ⁻ scavenging activity ranged from 41.3% to 83.9%. Higher content of phenols (26.89 to 50.51 mg gallic acid equivalents per g dry weight) and flavanoids (38.66 to 76.00 mg quercetin equivalents per g dry weight) in leaves could be responsible for the free radical scavenging activity of this plant. Depending upon the location of the plants, variations were observed in different activities. Based on the systematic evaluation in this study, preparations of Lepidium latifolium from Ladakh can be promoted as substitute to dietary requirements.     

Effect of the inflammatory response on serum indices of iron status in late pregnancy

Background and aimsA systemic inflammatory response complicates the evaluation of iron status during pregnancy. We investigated the magnitude of this effect on indices of iron status in late pregnancy.MethodsWe retrospectively interrogated laboratory data and hospitalisation records from April 2016 to March 2017 and obtained results from pregnant women in which serum high-sensitivity C-reactive protein (hsCRP) or albumin had been examined together with indicators of iron status (serum ferritin [SF] and serum transferrin [ST], n = 11,571). We assessed the association of the inflammatory response, as evidenced by hsCRP and albumin, with iron status indicators by general linear regression analysis.ResultCompared to women with an hsCRP of ≤ 5 mg/L, the median SF level in those with an hsCRP of 6–10, 11–20, and > 20 mg/L significantly increased by 2.24 μg/L (95 % confidence interval [CI]: 1.22, 3.26), 4.04 μg/L (95 % CI: 2.05, 6.04), and 13.49 μg/L (95 % CI: 10.44, 16.53); while the ST level decreased by 0.10 g/L (95 % CI: 0.13, 0.06), 0.16 g/L (95 % CI: 0.23, 0.09), and 0.21 g/L (95 % CI: 0.32, 0.11), respectively (all P < 0.001). With regard to the association of inflammation with SF and ST, no significant interaction between albumin (< 35 and ≥ 35 g/L) and hsCRP was observed (SF: P for interaction = 0.426; ST: P for interaction = 0.872).ConclusionsMeasurement of hsCRP in late pregnancy is necessary to correct the levels of SF and ST. The impact of the inflammatory response on indices of iron status in late pregnancy could not be adjusted by albumin.     

Iron status of very-low-birth-weight infants during the first 15 months of infancy.

The adequacy of iron stores in infants of very low birth weight (defined as less than 1500 g) in Canada is unknown. We monitored the iron status of 81 such infants at 3, 6, 9, 12 and 15 months of age. All of the infants were fed formula fortified with iron (13 mg/L) for at least 6 months, starting at 2 months of age. The plasma ferritin level decreased after the formula was no longer used. Although 90% of the infants were given cereal fortified with iron (30 mg of iron per 100 g) by 9 months of age, the plasma ferritin level continued to decrease. The level was less than 10 micrograms/L in 54% of the infants at 12 months of age and in 74% at 15 months; this indicated depleted iron stores. Because of delayed development very-low-birth-weight infants eat small amounts of cereal and therefore require iron-fortified formula throughout infancy.     

Comparison of the Activity of Meropenem and Imipenem Against Anaerobic Bacteria in Bulgaria

The in vitro activities of meropenem and imipenem were compared against 154 clinical isolates of anaerobic bacteria representing 23 species of 10 genera. The NCCLS-recommended agar dilution method with Brucella agar from the Wadsworth Anaerobic Laboratory was used. Meropenem proved to be more active than imipenem with an MIC range of ≤0.125–4 μg/mL, MIC₅₀=0.25 μg/mL, MIC₉₀=1 μg/mL with 100% of strains susceptible at the breakpoint=4 μg/mL. Imipenem showed a lower activity with an MIC range of ≤0.125 to 16 μg/mL, MIC₅₀of 2 μg/mL and MIC₉₀of 4 μg/mL with 10% of the strains not inhibited at this concentration. Ninety-six per cent were susceptible at 8 μg/mL and 100% at 16 μg/mL. The MIC of both antibiotics (especially of imipenem) were higher for the Bacteroides fragilis group than for the rest of the Gram-negative organism higher still than the Gram-positive anaerobes.     

Inhibition of cellulases by phenols

Enzyme hydrolysis of pretreated cellulosic materials slows as the concentration of solid biomass material increases, even though the ratio of enzyme to cellulose is kept constant. This form of inhibition is distinct from substrate and product inhibition, and has been noted for lignocellulosic materials including wood, corn stover, switch grass, and corn wet cake at solids concentrations greater than 10 g/L. Identification of enzyme inhibitors and moderation of their effects is of considerable practical importance since favorable ethanol production economics require that at least 200 g/L of cellulosic substrates be used to enable monosaccharide concentrations of 100 g/L, which result in ethanol titers of 50 g/L. Below about 45 g/L ethanol, distillation becomes energy inefficient. This work confirms that the phenols: vanillin, syringaldehyde, trans-cinnamic acid, and hydroxybenzoic acid, inhibit cellulose hydrolysis in wet cake by endo- and exo-cellulases, and cellobiose hydrolysis by β-glucosidase. A ratio of 4 mg of vanillin to 1 mg protein (0.5 FPU) reduces the rate of cellulose hydrolysis by 50%. β-Glucosidases from Trichoderma reesei and Aspergillus niger are less susceptible to inhibition and require about 10× and 100× higher concentrations of phenols for the same levels of inhibition. Phenols introduced with pretreated cellulose must be removed to maximize enzyme activity.     

Phosphorus status of some saline and non-saline hydromorphic soils of the Niger Delta of Nigeria

Summary The phosphorus status of some mangrove and fresh-water hydromorphic soils of the Nigerian Niger Delta was evaluated by determining the relative abundance of various P forms and the P-sorption capacity indices. Total P was high in all soils ranging from 352 to 2055 mg/kg, with a mean of 1011 mg/kg. The saline mangrove-swamp soils had generally higher values than the fresh-water soils. Organic P formed about 34% of total P. The relative abundance of the inorganic P forms was in decreasing order, active P, occluded P and residual P. The relative distribution of active P followed the decreasing order, Fe–P, Al–P and Ca–P.The adsorption capacity was generally low in all soils. The amount of P sorbed from the addition of 150 mg/100g of soil ranged from zero to 13 mg/100g, giving an average of about 7% of added P sorbed.The abundance of active P and low content of occluded P were attributed to the poorly drained and unweathered nature of the soils. The low P adsorption suggests little capacity of the soils to fix P. The relatively high content of active P and the low P sorption capacity generally indicate high availability of P to plant in these soils.     

The effect of puromycin and cycloheximide on vacuole formation and exocytosis in Tetrahymena pyriformis GL-9

It has been shown that both puromycin and cycloheximide, at concentrations of 434 and 100 g/ml respectively, produce a marked inhibition of vacuole formation and exocytosis in Tetrahymena pyriformis GL-9. These effects were analysed in a quantitative manner. At the same time as these inhibitions occurred the incorporation of 1-C¹⁴ leucine into trichloroacetic acid precipitable material was inhibited by 90% and 100% respectively over a 40 min period. This inhibition of protein synthesis by cycloheximide occurred almost immediately, whereas the inhibition of vacuole formation and egestion was delayed. The results suggested that the latter processes were dependent upon a continuing supply of proteinaceous material, of which there was only a small store within the cell. Cycloheximide inhibited exocytosis completely under the conditions employed (with 100% inhibition of protein synthesis) whereas puromycin (with a 90% inhibition of protein synthesis) only inhibited it by about 50%. This suggested that the amount of newly synthesized protein required for the exocytic egestion process was very small in relation to the total cell requirement for protein synthesis. The entry of both inhibitors into the cell was by means other than vacuole formation. Puromycin appeared to have some effect on vacuole formation which was unconnected with protein synthesis. Microscopic observations of living cells indicated that oral apparatus function and endocytic vacuole formation were probably both affected by the inhibitors. Chloramphenicol, at 200 g/ml, had little effect on vacuole formation by starved cells with an exposure of an hour. The uptake of 1-C¹⁴ leucine from the growth medium was found to be a selective process, giving a concentration of about 2000 times into the cells over a 1 hr period. The results are discussed.     

The role of cellular oxidases and catalytic iron in the pathogenesis of ethanol-induced liver injury

Free radical generation and catalytic iron have been implicated in the pathogenesis of alcohol-induced liver injury but the source of free radicals is a subject of controversy. The mechanism of ethanol-induced liver injury was investigated in isolated hepatocytes from a rodent model of iron loading in which free radical generation was measured by the determination of alkane production (ethane and pentane). Iron loading (125mg/kg i.p.) increased hepatic non-heme iron 3-fold, increased the prooxidant activity of cytosolic ultrafiltrates 2-fold and doubled ethanol-induced alkane production. The addition of desferrioxamine (20μM), a tight chelator of iron, completely abolished alkane production indicating the importance of catalytic iron. The role of cellular oxidases as a source of ethanol induced free radicals was studied through the use of selective inhibitors. In both the presence and absence of iron loading, selective inhibition of xanthine oxidase with oxipurinol(20μM) diminished ethanol-induced alkane production 0–40%, inhibition of aldehyde oxidase with menadione (20μM) diminished alkane production 36–75%, while the inhibition of aldehyde and xanthine oxidase by feeding tungstate (100mg/kg/day) virtually abolished alkane production. Addition of acetaldehyde(50μM) to hepatocytes generated alkanes at rates comparable to those achieved with ethanol indicating the importance of acetaldehyde metabolism in free radical generation. The cellular oxidases (aldehyde and xanthine oxidase) along with catalytic iron play a fundamental role in the pathogenesis of free radical injury due to ethanol.