Factors modulating alkaline phosphatase activity in the diazotrophic rice-field cyanobacterium, Anabaena oryzae

Summary Alkaline phosphatases (APase), both phosphomonoesterase (PMEase) and phosphodiesterase (PDEase) were studied in the cyanobacterium Anabaena oryzae for their specific requirements of temperature, pH, micro- and macronutrients and their activities in the presence of salinity and heavy metal stress. The alkaline phosphatases (PMEase and PDEase) are quite stable enzymes and require a narrow range of pH (pH 10–10.2) and temperature (35–40 °C) for their optimal activity.A pH of 10, 10.2 and 10.2 supported optimal activity of cellular PMEase, cellular PDEase and extracellular PMEase, respectively, whereas temperatures of 35, 38 and 40 °C were required for their optimal activity. The requirement for Ca²⁺ and Mg²⁺ as macronutrients and the significance of the micronutrients Zn²⁺, Co²⁺, Fe²⁺, Mn²⁺ and Cu²⁺ in APase activity in the cyanobacterium suggests nutritional regulation of enzyme activity in A. oryzae. The metals Pb²⁺, Cr⁶⁺ and Ni²⁺ severely inhibited APase activity, whereas the NaCl stress had a dual role, which was concentration dependent. NaCl stress at lower concentrations (≤20 mM) caused an increase in cellular PMEase activity while its higher concentration (>20 mM) favoured release of the extracellular PMEase. The decrease in cellular activity and an increase in extracellular activity suggest that the higher concentrations of salt stimulate the release of the enzyme.The data suggest that the cyanobacterium A. oryzae possess a potential application as biofertilizer in high salinity and alkaline (Ca²⁺-rich) soils because of its ability to release PO₄³⁻ enzymatically under these conditions.     

Alkaline phosphatase activities of anAnabaena sp. from deep-water rice

Anabaena sp. grew with mono- and di-ester phosphate compounds as sources of phosphate, indicating the presence of phosphomonoesterase (PMEase) and phosphodiesterase (PDEase) activities. Cell-bound PMEase and PDEase activities were detected during growth in 0.5 and 10 mg PO₄l^–1 only when the cellular phosphate concentration fell to 0.46% of cell protein and the activities increased as cellular phosphate content decreased. The K_m values for these enzymes were 0.3mm forp-nitrophenyl phosphate and 0.2mm for bis-p-nitrophenyl phosphate, respectively. Only PMEase activity was found extracellularly. The pH optima for PMEase and PDEase were 10.2 and 10.4, respectively, and the temperature optima at pH 10.2 were 37°C and 40°C, respectively. Ca²⁺ increased the enzyme activities while Zn²⁺ caused marked inhibition. The inorganic phosphate repressed the cellular PMEase activity after a lag of 4 h.     

Phosphatase activities of the aquatic moss <Emphasis Type="Italic">Warnstorfia fluitans</Emphasis> (Hedw.) Loeske from an acidic stream in North-East England

A study was made of the aquatic environment, tissue nutrient composition and surface phosphatase activities of the aquatic moss Warnstorfia fluitans in Brandon Pithouse Stream, a small acidic stream in N-E England. The water, which originates from an underground spring, had been pH 2.6 for at least 30 years, but about 3.9 during the present study. The moss was by far the most abundant phototroph during all this period. Seasonal changes in aqueous nitrogen and phosphorus fractions were measured over a 2-year period near the source. Most of the filtrable N and P were at times organic, but the very high N:P ratio (even if organic N is excluded) suggests that only organic phosphate is likely to be important for the moss. There was a high peak in organic phosphate in late spring in both study years. Surface phosphomonoesterase (PMEase) and phosphodiesterase (PDEase) activities were highly correlated in the field and in axenic culture, though there were some differences in response to environmental factors. Axenic material showed higher PMEase and PDEase activities when grown with organic P than with inorganic P. Although the data suggest that internal P content is an important factor influencing phosphatase activities, PDEase activity was especially marked when the moss was grown with the diester, DNA, as P source, indicating that at least one of its surface phosphatases can also respond directly to the environment. Handling editor: S. M. Thomaz     

Phosphatase Activities of Endolithic Communities in Rocks of the Antarctic Dry Valleys

Abstract Phosphorus is scarce in Beacon Sandstone of the McMurdo Dry Valleys, Antarctica, and any input from precipitation is minimal. In endolithic microbial communities recycling of P by the action of phosphatases may therefore be important. The phosphatase activities of three different types of endolithic communities in the McMurdo Dry Valley, Antarctica, were studied in the laboratory. The dominant phototrophs were Chroococcidiopsis, mixed Gloeocapsa and Trebouxia, and Trebouxia. Bacteria were also visually conspicuous in the latter two communities, and the Trebouxia in both cases formed a lichenized association with fungal hyphae. In each case marked phosphomonoesterase (PMEase) activity was found in assays with 4-methylumbelliferyl phosphate (MUP) or p-nitrophenyl phosphate as substrate, and phosphodiesterase activity with bis-p-nitrophenyl phosphate as substrate. The pH optimum of PMEase (assayed at 0.5 pH intervals) of the Chroococcidiopsis, Gloeocapsa–Trebouxia, and Trebouxia communities was 9.5, 5.5, and 8.0, respectively. These values are similar for aqueous extracts of the respective rocks (pH 9.2, 6.2, 7.5). All three communities showed significantly higher PMEase activity at 5° than 1°C, and the first two also showed much higher activity at 5° than 10°C. All three communities also showed slightly lower activity in the light (7 μmol photon m^-2 s^-1) than the dark; this was found with all substrates and substrate concentrations. Prior exposure of a moistened sample to light for 2 h led to a reduction in activity even when the subsequent assay was done in the dark. The rate of PMEase activity (using 100 μM MUP) in the Gloeocapsa–Trebouxia and Trebouxia communities was approximately linear with time up to 24 h, whereas the Chroococcidiopsis community showed a marked decrease after 6 h. At least part of this was due to retention of the 4-methylumbelliferone (MU) hydrolysis product. In spite of the assays being conducted on a whole community, the activity–substrate relationship in each case quite closely resembled a typical Michaelis–Menten relationship. Estimates were made of the apparent half-saturation value and the concentration of MUP required to support half-maximal rates. The apparent K _m values were: Chroococcidiopis, 230 μM; Gloeocapsa–Trebouxia 169 μM; Trebouxia, 135 μM. The respective values for apparent V _max were 0.053, 0.55, and 0.35 μmol MU g^-1 h^-1. In view of the greater dependence of these communities on the rock for their sole supply of P than for C and probably N, it is suggested that the cycling of P within the communities is a key factor influencing their overall metabolic activity when moisture permits their activation. Received: 16 June 1999; Accepted: 23 August 1999; Online Publication: 24 March 2000     

2,4-Dichlorophenoxyacetic Acid (2,4-D) Utilization by Delftia acidovorans MC1 at Alkaline pH and in the Presence of Dichlorprop is Improved by Introduction of the tfdK Gene

Growth of Delftia acidovorans MC1 on 2,4-dichlorophenoxyacetic acid (2,4-D) and on racemic 2-(2,4-dichlorophenoxy)propanoic acid ((RS)-2,4-DP) was studied in the perspective of an extension of the strain’s degradation capacity at alkaline pH. At pH 6.8 the strain grew on 2,4-D at a maximum rate (μ_max) of 0.158 h⁻¹. The half-maximum rate-associated substrate concentration (K_s) was 45 μM. At pH 8.5 μ_max was only 0.05 h⁻¹ and the substrate affinity was mucher lower than at pH 6.8. The initial attack of 2,4-D was not the limiting step at pH 8.5 as was seen from high dioxygenase activity in cells grown at this pH. High stationary 2,4-D concentrations and the fact that μ_max with dichlorprop was around 0.2 h⁻¹ at both pHs rather pointed at limited 2,4-D uptake at pH 8.5. Introduction of tfdK from D. acidovorans P4a by conjugation, coding for a 2,4-D-specific transporter resulted in improved growth on 2,4-D at pH 8.5 with μ_max of 0.147 h⁻¹ and K_s of 267 μM. Experiments with labeled substrates showed significantly enhanced 2,4-D uptake by the transconjugant TK62. This is taken as an indication of expression of the tfdK gene and proper function of the transporter. The uncoupler carbonylcyanide m-chlorophenylhydrazone (CCCP) reduced the influx of 2,4-D. At a concentration of 195 μM 2,4-D, the effect amounted to 90% and 50%, respectively, with TK62 and MC1. Cloning of tfdK also improved the utilization of 2,4-D in the presence of (RS)−2,4-DP. Simultaneous and almost complete degradation of both compounds occurred in TK62 up to D = 0.23 h⁻¹ at pH 6.8 and up to D = 0.2 h⁻¹ at pH 8.5. In contrast, MC1 left 2,4-D largely unutilized even at low dilution rates when growing on herbicide mixtures at pH 8.5.     

Net primary productivity estimation and its relationship with tree diversity for tropical dry deciduous forests of central India

Present study aims at estimation and validation of net primary productivity (NPP) using production efficiency model (PEM), and its possible relationship with tree diversity. The PEM estimates NPP, based on light use efficiency (LUE) and intercepted photosynthetically active radiation (IPAR). Weighted average LUE varied between 0.02 gC/μmol/m² of PAR (Mixed forest (miscellaneous)) to 0.08 gC/μmol/m² of PAR (Acacia forest), in growing phase (GP), and 0.0008 gC/μmol/m² of PAR (Boswellia mixed forest) to 0.023 gC/μmol/m² of PAR (Acacia forest) during the senescent phase (SP). The average weighted LUE for tropical dry and Moist deciduous forest (MDF) in GP were 0.05 gC/μmol/m² of PAR and 0.03 gC/μmol/m² of PAR, respectively. The average IPAR for different forest types was 2079.58 μmol/m²/s during GP and 1510.58 μmol/m²/s during SP. The PEM based NPP varied between 0.58–275.78 gC/m²/year during GP and 0.43–74.34 gC/m²/year during SP. The PEM based NPP and conventional (ground based) NPP were related with R ² of 0.55. The tree diversity and NPP relationship was observed with R ² of 0.55 at the level of both plot and forest types.     

The Ca2+-extruding ATPase of the human platelet creates and responds to cytoplasmic pH changes,consistent with a 2 Ca2+/nH+ exchange mechanism

The Ca²⁺-extruding ATPase pump of the human platelet was studiedin situ by measuring Ca²⁺ extrusion from quin2-overloaded platelets (Johansson, J.S., Haynes, D.H. 1988.J. Membrane Biol. 104:147–163). Cytoplasmic pH (pH_cyt) was measured by BCECF fluorescence in parallel experiments. The pump was studied by raising the cytoplasmic free Ca²⁺ to 2.5 μM and monitoring active Ca²⁺ extrusion into a Ca²⁺-free medium. The pump was shown to perturb pH_cyt, to not respond to changes in membrane potential and to respond to imposed changes in pH_cyt in a manner consistent with the Ca²⁺ pump acting as a 2 Ca²⁺/nH⁺ exchanger. (i) Raising the external pH (pH_ext) from 7.40 to 7.60 lowers the V_max of the pump in basal condition (V_max,1) from 110±18 to 73±12 μM/min (=μmol/liter cell volume/min). (ii) Lowering pH_ext to 7.13 raised V_max,1 to 150±15 μM/min. (iii) In an N-methyl-d-glucamine (NMDG⁺) medium, the pump operation against high [Ca²⁺]_cyt acidifies the cytoplasm by −0.36±0.10 pH units, and the pump becomes self-inhibited. (iv) Use of nigericin to drive pH_cyt down to 6.23 reduces the V_max,1 to 18±11 μM/min. (v) Alkalinization of the cytoplasm by monensin in the presence of Na⁺ raises the V_max,1 (basal state withK _m,1=80 nM) to 136±24 μM/min, but also activates the pump fourfold (V_max,2=280±28 μM/min;K _m,2=502±36 nM). (vi) Transient elevation of pH_cyt by NH₄Cl at high [Ca²⁺]_cyt activates the pump eightfold (V_max,2≥671±350 μM/min). The large activation by alkaline pH_cyt at high [Ca²⁺]_cyt can be explained by Ca²⁺-calmodulin activation of the pump (Valant, P.A., Adjei, P.N., Haynes, D.H. 1992.J. Membrane Biol. 130:63–82) and by increased Ca²⁺ affinity of calmodulin at high pH.     

Ebselen is a potent non-competitive inhibitor of extracellular nucleoside diphosphokinase

Nucleoside di- and triphosphates and adenosine regulate several components of the mucocilairy clearance process (MCC) that protects the lung against infections, via activation of epithelial purinergic receptors. However, assessing the contribution of individual nucleotides to MCC functions remains difficult due to the complexity of the mechanisms of nucleotide release and metabolism. Enzymatic activities involved in the metabolism of extracellular nucleotides include ecto-ATPases and secreted nucleoside diphosphokinase (NDPK) and adenyl kinase, but potent and selective inhibitors of these activities are sparse. In the present study, we discovered that ebselen markedly reduced NDPK activity while having negligible effect on ecto-ATPase and adenyl kinase activities. Addition of radiotracer [γ ³²P]ATP to human bronchial epithelial (HBE) cells resulted in rapid and robust accumulation of [³²P]-inorganic phosphate (³²Pi). Inclusion of UDP in the incubation medium resulted in conversion of [γ ³²P]ATP to [³²P]UTP, while inclusion of AMP resulted in conversion of [γ ³²P]ATP to [³²P]ADP. Ebselen markedly reduced [³²P]UTP formation but displayed negligible effect on ³²Pi or [³²P]ADP accumulations. Incubation of HBE cells with unlabeled UTP and ADP resulted in robust ebselen-sensitive formation of ATP (IC₅₀ = 6.9 ± 2 μM). This NDPK activity was largely recovered in HBE cell secretions and supernatants from lung epithelial A549 cells. Kinetic analysis of NDPK activity indicated that ebselen reduced the V _max of the reaction (K _i = 7.6 ± 3 μM), having negligible effect on K _M values. Our study demonstrates that ebselen is a potent non-competitive inhibitor of extracellular NDPK.     

<Emphasis Type="Italic">Bridelia stipularis</Emphasis>: a new source for anthocyanin production in vitro

The present study prospects Bridelia stipularis (L.) Blume as a new source of anthocyanins through leaf and internode explants-derived callus cultures. Murashige and Skoog (MS) medium fortified with 21.48 μM α-naphthaleneacetic acid was superior for callus growth. Of the different regimes, the anthocyanin production relied on synergic effects of plant growth regulators, pH, light, and carbon source. The calluses incubated in light on MS medium with 4% glucose containing 2.22 μM N⁶-benzyladenine (BA) and 2.26 μM 2,4-dichlorophenoxyacetic acid (2,4-D) at pH 3.5 yielded the highest amount (a mean of 0.42 mg g⁻¹ callus) of anthocyanins. Subsequent cultures of the calluses on the above medium yielded a stable production of anthocyanins. Medium containing glucose was superior to that with sucrose for anthocyanin formation. Kinetin was inhibitory to anthocyanin accumulation. Suspension cultures of MS medium containing 2.26 μM 2,4-D and 2.22 μM BA at pH 5.0 started excretion of anthocyanins into the medium on reaching to pH 4.4–4.6.     

Peculiarities of dopamine receptors on the membrane of multipolar spinal cord neurons of the brook lamprey <Emphasis Type="Italic">Lampetra planeri</Emphasis>

On isolated multipolar neurons of spinal cord of amniocoete (larva of the brook lamprey Lampetra planeri) by the patch-clamp method in configuration “the whole cell,” a modulating effect of dopamine on potential-activated Na⁺ currents was studied. Application of dopamine (10 μM) was shown to produce a complex action on the sodium current amplitude. In some cases a decrease of the amplitude, on average, by 13.5 ± 2.2% was found, while in others—an increase, on average, by 8.6 ± 6.1%. The modulation dopamine effect was not accompanied by any changes either of the threshold of the current appearance or of resistance of neuronal cell membranes. Pharmacological analysis with use of dopamine agonist has shown that the agonist of D1-receptors (−)-SKF-38393 (10 μM) decreases the Na+ current amplitude, whereas the agonist of D2-receptors (−)-quinpirole (10 μM) can produce in different cells both an increase, by 30.7 ± 17.0%, and a decrease, by 13.2 ± 3.1%, of the Na+ current amplitude. The obtained data indicate the existence of D1-and D2-receptors on the membrane of multipolar spinal neurons of the amniocoete (larva of the brook lamprey). Study of action of antagonists has shown that the antagonist of D1-receptors (+)-SCH-23390 (10 μM) does not affect action of the agonist of D1-receptors (−)-SKF-38393 (10 μM); the antagonist of D2-receptors (−)-sulpiride (10 μM) blocks completely effects both of the agonist of D1-receptors (−)-SKF-38393 (10 μM) and of the agonist of D2-receptors (−)-quinpirole (10 μM). The antagonist of D1-receptors (+)-SCH-23390 (10 μM) produced no effect on action of the agonist of D1-receptors (−)-SKF-38393 (10 μM). The obtained data indicate peculiarities of dopamine receptors of Cyclostomata as compared with those in mammals. Original Russian Text ? A. A. Bukinich, E. A. Tsvetkov, and N. P. Vesselkin, 2007, published in Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, 2007, Vol. 43, No. 1, pp. 39–45.     

Oxidation of arsenite by two β-proteobacteria isolated from soil

Two heterotrophic As(III)-oxidizing bacteria, SPB-24 and SPB-31 were isolated from garden soil. Based on 16S rRNA gene sequence analysis, strain SPB-24 was closely related to genus Bordetella, and strain SPB-31 was most closely related to genus Achromobacter. Both strains exhibited high As(III) (15 mM for SPB-24 and 40 mM for SPB-31) and As(V) (>300 mM for both strains) resistance. Both strains oxidized 5 mM As(III) in minimal medium with oxidation rate of 554 and 558 μM h⁻¹ for SPB-24 and SPB-31, respectively. Washed cells of both strains oxidized As(III) over broad pH and temperature range with optimum pH 6 and temperature 42°C for both strains. The As(III) oxidation kinetic by washed cells showed K _m and V _max values of 41.7 μM and 1,166 μM h⁻¹ for SPB-24, 52 μM and 1,186 μM h⁻¹ for SPB-31. In the presence of minimal amount of carbon source, the strains showed high As(III) oxidation rate and high specific arsenite oxidase activity. The ability of strains to resist high concentration of arsenic and oxidize As(III) with highest rates reported so far makes them potential candidates for bioremediation of arsenic-contaminated environment.     

β-Galactosidase production by the psychrotolerant yeast Guehomyces pullulans 17-1 isolated from sea sediment in Antarctica and lactose hydrolysis

A psychrotolerant yeast Guehomyces pullulans 17-1 was isolated from sea sediment in Antarctica. It was found that it could yield both extracellular and cell-bound β-galactosidase. After optimization of the medium and cultivation conditions, it was found that the yeast strain produced over 17.2 U mL⁻¹ of β-galactosidase activity within 120 h at the flask level while the yeast strain produced over 25.3 U mL⁻¹ of β-galactosidase activity within 144 h during the 2-L fermentation. This is the highest β-galactosidase activity produced by the wild type yeast strains reported so far. However, the optimal pH and temperature for the crude β-galactosidase were 4.0 and 50 °C, respectively. Lactose could be converted into glucose and galactose and a large amount of reducing sugar could be released from milk under catalysis of the yeast culture.     

Potentiation of Regulatory Volume Decrease by a P2-Like Receptor and Arachidonic Acid in American Alligator Erythrocytes

This study examined the role of a P2 receptor and arachidonic acid (AA) in regulatory volume decrease (RVD) by American alligator red blood cells (RBCs). Osmotic fragility was determined optically, mean cell volume was measured by electronic sizing, and changes in intracellular Ca²⁺ concentration were visualized using fluorescence microscopy. Gadolinium (50 μM), hexokinase (2.5 U/ml), and suramin (100 μM) increased osmotic fragility, blocked volume recovery after hypotonic shock, and prevented a rise in intracellular Ca²⁺ that normally occurs during cell swelling. The P2X antagonists PPADS (50 μM) and TNP-ATP (10 μM) also increased fragility and inhibited volume recovery. In contrast, ATPγS (10 μM), α,β-methylene-ATP (50 μM) and Bz-ATP (50 μM) had the opposite effect, whereas 2-methylthio-ATP (50 μM) and UTP (10 μM) had no effect. In addition, the phospholipase A₂ (PLA₂) inhibitors ONO-RS-082 (10 μM), chlorpromazine (10 μM), and isotetrandrine (10 μM) increased osmotic fragility and blocked volume recovery, whereas AA (10 μM) and its nonhydrolyzable analog eicosatetraynoic acid (ETYA, 10 μM) had the reverse effect. Further, AA (10 μM), but not ATPγS (10 μM), prevented the inhibitory effect of a low Ca²⁺-EGTA Ringer on RVD, whereas both AA (10 μM) and ATPγS (10 μM) caused cell shrinkage under isosmotic conditions. In conclusion, our results are consistent with the presence of a P2-like receptor whose activation stimulated RVD. In addition, AA also was important for volume recovery.     

Nutrient couplings between on-site sewage disposal systems, groundwaters, and nearshore surface waters of the Florida Keys

We performed a one-year study to determine the effects of on-site sewage disposal systems (OSDS, septic tanks) on the nutrient relations of limestone groundwaters and nearshore surface waters of the Florida Keys. Monitor wells were installed on canal residences with OSDS and a control site in the Key Deer National Wildlife Refuge on Big Pine Key. Groundwater and surface water samples were collected monthly during 1987 and analyzed for concentrations of dissolved inorganic nitrogen (DIN = NO_f3/sup- + NO_f2/sup- + NH_4/su+), soluble reactive phosphate (SRP), temperature and salinity. Significant nutrient enrichment (up to 5000-fold) occurred in groundwaters contiguous to OSDS; DIN was enriched an average of 400-fold and SRP some 70-fold compared to control groundwaters. Ammonium was the dominant nitrogenous species and its concentration ranged from a low of 0.77 μM in control wells to 2.75 mM in OSDS-enriched groundwaters. Concentrations of nitrate plus nitrite were also highly enriched and ranged from 0.05 μM in control wells to 2.89 mM in enriched groundwaters. Relative to DIN, concentrations of SRP were low and ranged from 30 nM in control wells to 107 μM in enriched groundwaters. N : P ratios of enriched groundwaters were consistently > 100 and increased with increasing distance from the OSDS, suggesting significant, but incomplete, adsorption of SRP by subsurface flow through carbonate substrata. Nutrient concentrations of groundwaters also varied seasonally and were approximately two-fold higher during the winter (DIN = 1035 μM; SRP = 10.3 μM) compared to summer (DIN = 470 μM; SRP = 4.0 μM). In contrast, surface water nutrient concentrations were two-fold higher during the summer (DIN = 5.0 μM; SRP = 0.50 μM) compared to winter (DIN = 2.5 μM; SRP = 0.15 μM). Direct measurement of subsurface groundwater flow rate indicated that tides and increased groundwater recharge enhanced flow some two-fold and six-fold, respectively. Accordingly, the observed seasonal coupling of OSDS-derived nutrients from groundwaters to surface waters is maximum during summer because of seasonally maximum tides and increased hydraulic head during the summer wet season. The yearly average benthic flux of anthropogenic DIN into contiguous canal surface waters is 55 mmol m^-2 day^-1, a value some five-fold greater than the highest rate of benthic N-fixation measured in carbonate-rich tropical marine waters.     

Use of micro-CT-based finite element analysis to accurately quantify peri-implant bone strains: a validation in rat tibiae

Although research has been addressed at investigating the effect of specific loading regimes on bone response around the implant, a precise quantitative understanding of the local mechanical response close to the implant site is still lacking. This study was aimed at validating micro-CT-based finite element (μFE) models to assess tissue strains after implant placement in a rat tibia. Small implants were inserted at the medio-proximal site of 8 rat tibiae. The limbs were subjected to axial compression loading; strain close to the implant was measured by means of strain gauges. Specimen-specific μFE models were created and analyzed. For each specimen, 4 different models were created corresponding to different representations of the bone–implant interface: bone and implant were assumed fully osseointegrated (A); a low stiffness interface zone was assumed with thickness of 40 μm (B), 80 μm (C), and 160 μm (D). In all cases, measured and computational strains correlated highly (R ² = 0.95, 0.92, 0.93, and 0.95 in A, B, C, and D, respectively). The averaged calculated strains were 1.69, 1.34, and 1.15 times higher than the measured strains for A, B, and C, respectively, and lower than the experimental strains for D (factor = 0.91). In conclusion, we demonstrated that specimen-specific FE analyses provide accurate estimates of peri-implant bone strains in the rat tibia loading model. Further investigations of the bone-implant interface are needed to quantify implant osseointegration.     

Effect of lipids and detergents on the production and solubilization of extracellular lipase inYarrowia lipolytica

Triglycerides, oleic acid but not fatty acid-containing, nonionic detergents (Spans, Tweens) were able to stimulate the synthesis of cell-bound and soluble lipase ofYarrowia lipolytica grown in a complex medium containing citrate and urea. The optimal concentration of olive oil for induction was 0.5% (W/V). The combined effect of a high ionic strength (0.75 mol/L KCl) and of digitonin (2 mmol/L) at pH 7.6 resulted in solubilization of 80% of the cell-bound lipase and a significant activation of the enzyme. Comparison of twoY. lipolytica strains showed the effects of Mg²⁺ and Fe³⁺ concentrations in the medium on the synthesis of the enzyme to be strongly strain-dependent.     

Organic matter in the Elbe estuary

In the low salinity region of the Elbe estuary in March–April 1992 the turbidity zone was characterized by high loads of suspended matter, 7% of which was organic material (750 μM C) at the surface. Particulate nitrogen, phosphorus and carbohydrates concentrations reached 55 μM N, 10 μM P and more than 15 μM glc. eq., corresponding to 13% of total C, at the surface and increasing threefold near the bottom. In spite of the peaking of particulate organic material levels in the maximum turbidity zone, there were only consistent qualitative changes in total particulate C, N, P, and carbohydrates along the Elbe estuary. Downstream, both the percentage of particulate organic material and the turbidity: organic material ratio decreased, indicating decomposition in the upper estuary and dilution with inorganic suspended matter from the lower estuary. Diatoms, the dominant phytoplankton group, decreased from the upper reaches towards the turbidity zone by 0.3 (surface) and 1.5 mg C l⁻¹ (bottom). This corresponded to 12 and 60% of the decrease in total particulate carbon. Estimated local input of organic carbon by primary production (21 μg Cl⁻¹d⁻¹) was almost compensated by calculated minimum grazing (14 μg C l⁻¹d⁻¹). Considering net primary production and grazing, the dissimilation by zooplankton (5 μg C l⁻¹d⁻¹) and heterotrophic bacterial decomposition (48 μg C l⁻¹d⁻¹), when summed over the estimated flushing time (12 days) represented a loss of suspended organic matter of 0.6 mg Cl⁻¹. Since this was only 20% of the observed decrease in particulate carbon, significant dilution processes must be assumed. Dissolved organic nitrogen decreased from 35 to 10 μM N and dissolvd organic phosphorus from 0.6 to 0.1 μM P towards the sea, mainly due to dilution. The distribution of phosphate, with highest loads in the turbidity maximum of 2.4 μM, suggested an interaction with the accumulated load of particulate material.     

Modulation of biocidal activity of <Emphasis Type="Italic">Calothrix</Emphasis> sp. and <Emphasis Type="Italic">Anabaena</Emphasis> sp. by environmental factors

An investigation was undertaken to evaluate a set of cyanobacterial strains in terms of production of biocidal compounds exhibiting allelochemical and fungicidal properties. Two cyanobacterial strains — Anabaena sp. and Calothrix sp. were selected for further investigation, on the basis of their larger inhibition zones on the lawn of Synechocystis and Synechococcus sp. and two phytopathogenic fungi — Rhizoctonia bataticola and Pythium debaryanum. The diameter of the inhibition zone was largest when extracellular filtrates of the two cultures incubated at high light intensity (90–100 μmol photons m⁻² s⁻¹) and temperature (40 ± 2 °C) or grown in medium containing two-folds higher P (1.4 mg/L, as compared to 0.7 mg/L in BG 11 medium) were taken. A pH of 8 was the most optimal for both strains, in terms of growth and biocidal activity. Partial purification of ethyl acetate extract using TLC, followed by GLC revealed a single peak. This study highlights the importance of environmental factors in aggravating or reducing the toxic effects of these harmful cyanobacteria and their potential as a biocontrol agent.     

Chromium Reduction,Plant Growth–Promoting Potentials,and Metal Solubilizatrion by <Emphasis Type="Italic">Bacillus sp</Emphasis>. Isolated from Alluvial Soil

The plant growth–promoting potentials, production of siderophore and solubilization of insoluble phosphorus (P) and zinc and lead by the chromium (vi) -reducing Bacillus species, PSB 1, PSB 7, and PSB 10, was assessed both in the presence and absence of chromium under in vitro conditions. The Bacillus strains tolerated chromium up to the concentration of 500 (PSB1), 400 (PSB7), and 550 μg ml⁻¹ (PSB10), respectively, on nutrient agar plates. Bacillus sp. PSB 10 reduced Cr (vi) by 87% at pH 7, which was followed by Bacillus sp. PSB 1 (83%) and PSB 7 (74%) in nutrient broth after 120 h of incubation. A concentration of 50 μg ml⁻¹ of Cr (vi) was completely reduced by Bacillus sp. PSB 1 and PSB 10 (after 100 h) and PSB 7 (after 120 h). The Bacillus strains PSB 1, PSB 7, and PSB 10 produced 19.3, 17.7, and 17.4 μg ml⁻¹ of indole acetic acid, respectively, in luria bertani broth at 100 μg ml⁻¹ of tryptophan, which consistently decreased with an increase in chromium concentration. The Bacillus strains were positive for siderophore, HCN, and ammonia both in the absence and presence of chromium. The Bacillus strains solubilized 375 (PSB 1), 340 (PSB 7), and 379 (PSB 10) μg ml⁻¹ P, respectively, in Pikovskaya broth devoid of chromium. In contrast, chromium at 150 μg ml⁻¹ reduced the amount of P solubilized by 17 (PSB 1), 15 (PSB 7), and 9% (PSB 10) compared to control. The tested bacterial strains solubilized a considerable amount of zinc and lead in nutrient broth both in the absence and presence of chromium. Generally, the chromium reduction and the plant growth–promoting potentials of chromium-reducing Bacillus were strongly correlated at the tested concentration of chromium. The present observations demonstrated that the chromium-reducing, metal-solubilizing, and plant growth–promoting potentials of the Bacillus strains PSB1, PSB 7, and PSB10 were not adversely affected by the chromium application and, hence, may be applied for raising the productivity of crops under metal-contaminated soils.     

Ivermectin-dependent release of IL-1beta in response to ATP by peritoneal macrophages from P2X<Subscript>7</Subscript>-KO mice

The response to ATP of peritoneal macrophages from wild-type (WT) and P2X₇-invalidated (KO) mice was tested. Low concentrations (1–100 μM) of ATP transiently increased the intracellular concentration of calcium ([Ca²⁺]_i) in cells from both mice. The inhibition of the polyphosphoinositide-specific phospholipase C with U73122 inhibited this response especially in WT mice suggesting that the responses coupled to P2Y receptors were potentiated by the expression of P2X₇ receptors. One millimolar ATP provoked a sustained increase in the [Ca²⁺]_i only in WT mice. The response to 10 μM ATP was potentiated and prolonged by ivermectin in both mice. One millimolar ATP increased the influx of extracellular calcium, decreased the intracellular concentration of potassium ([K⁺]_i) and stimulated the secretion of interleukin-1β (IL-1β) only in cells from WT mice. Ten micromolar ATP in combination with 3 μM ivermectin reproduced these responses both in WT and KO mice. The secretion of IL-1β was also increased by nigericin in WT mice and the secretory effect of a combination of ivermectin with ATP in KO mice was suppressed in a medium containing a high concentration of potassium. In WT mice, 150 μM BzATP stimulated the uptake of YOPRO-1. Incubation of macrophages from WT and KO mice with 10 μM ATP resulted in a small increase of YOPRO-1 uptake, which was potentiated by addition of 3 μM ivermectin. The uptake of this dye was unaffected by pannexin-1 blockers. In conclusion, prolonged stimulation of P2X₄ receptors by a combination of low concentrations of ATP plus ivermectin produced a sustained activation of the non-selective cation channel coupled to this receptor. The ensuing variations of the [K⁺]_i triggered the secretion of IL-1β. Pore formation was also triggered by activation of P2X₄ receptors. Higher concentrations of ATP elicited similar responses after binding to P2X₇ receptors. The expression of the P2X₇ receptors was also coupled to a better response to P2Y receptors.