The adverse effect of nitrogen limitation and excess-cellobiose on Fibrobacter succinogenes S85

Fibrobacter succinogenes S85 cultures that were cellobiose-limited converted cellobiose to succinate and acetate, produced little glucose or cellotriose, maintained an intracellular ATP concentration of 4.1 mM and a membrane potential of 140 mV for 24 h, did not lyse at a rapid rate once they had reached stationary phase, and had a most probable number of viable cells that was greater than 10⁶/ml. When the cellobiose concentration was increased 6-fold (5 mM to 30 mM), ammonia was depleted and the cultures left 10 mM cellobiose. Cultures provided with excess cellobiose produced succinate and acetate while they were growing, but there was little increase in fermentation acids after the ammonia was depleted and growth ceased. The stationary-phase, cellobiose-excess cultures had a lysis rate that was 7-fold faster than that of the cellobiose-limited cultures, and the most probable number was only 3.3 × 10³ cells/ml. The stationary-phase, cellobiose-excess cultures had 2.5 times as much cellular polysaccharide as the cellobiose-limited cultures, but the intracellular ATP and membrane potential were very low (0.1 mM and 40 mV respectively). Methylglyoxal, a potentially toxic end-product of carbohydrate fermentation, could not be detected, and fresh inocula grew rapidly in spent medium that was supplemented with additional ammonia. Stationary-phase, cellobiose-excess cultures converted cellobiose to glucose and cellotriose, but the apparent K _m of cellotriose formation was 15-fold lower than the K _m of glucose production (0.7 mM compared to 10 mM). Received: 26 June 1997 / Received revision: 12 August 1997 / Accepted: 29 August 1997     

Effects of calcium ion on adenovirus production with high densities of HEK293 cells

One of the major restrictions on the production of adenoviral vectors (AdV) is due to the decrease in virus concentration concomitant with an increase in cell concentration at infection (CCI) which is known as “cell density effect”, this could be because of the limited access to the nutrients or significant accumulation of toxic by-products. However, current strategies, such as developing robust serum-free medium and performing nutrient feeding, will partially address this issue. Therefore, the objective of this study was to further optimize serum-free culture medium by exploring the influence of calcium ion on virus production. Our studies showed that an optimal concentration of calcium ion significantly enhances AdV production, especially at a high CCI. During the virus infection process, a high concentration of calcium ion (≥ 1 mM) caused a reduction in virus infection efficiency, possibly as a result of cell aggregation. However, by optimizing the timing of the addition of calcium ion (i.e., 12 hours post-infection [hpi]), high virus infection efficiency could be maintained. The addition of 0.1 to 2 mM calcium ion at 12 hpi increased virus proliferation dose-dependently. Therefore, the optimal selection of both the concentration and the supplementation time of calcium ion during the process of AdV production could minimize the “cell density effect,” and a 2.6- and 3.2-fold increase in virus concentration could be achieved at CCI3 and CCI4, respectively.     

The effect of growth conditions on the biodegradation of tributyl phosphate and potential for the remediation of acid mine drainage waters by a naturally-occurring mixed microbial culture

The biodegradation of tributyl phosphate (Bu₃-P, TBP), releasing phosphate at a high enough concentration locally to precipitate uranium from solution, was demonstrated by a mixed culture consisting primarily of pseudomonads. The effect of various parameters on Bu₃-P biodegradation by growing cells is described. Growth at the expense of Bu₃-P as the carbon and phosphorus source occurred over a pH range from 6.5 to 8, and optimally at pH 7. Bu₃-P biodegradation was optimal at 30 °C, reduced at 20 °C and negligible at 4 °C and 37 °C. Incorporation of Cu or Cd inhibited, and Ni, Co and Mn reduced its degradation. Inorganic phosphate (above 10 mM) and kerosene (up to 1 g/l) reduced Bu₃-P biodegradation significantly, but nitrate had no effect. Sulphate (10–100 mM) was inhibitory. When pregrown biomass was used the fastest rates of tributyl and dibutyl phosphate biodegradation were 25 μmol h⁻¹ mg protein⁻¹ and 37 μmol h⁻¹ mg protein⁻¹ respectively. Microcarrier-immobilised biomass decontaminated uranium-bearing acid mine waste water by uranium phosphate precipitation at the expense of Bu₃-P hydrolysis in the presence of 35 mM SO₄ ²⁻. At pH 4.5, 79% of the UO₂ ²⁺ was removed at a flow rate of 1.4 ml/h on a 7-ml test column. Received: 2 June 1997 / Received revision: 15 September 1997 / Accepted: 19 September 1997     

Pseudomonas aeruginosa contamination of mouth swabs during production causing a major outbreak

Background

MUC7 12-mer (RKSYKCLHKRCR), a cationic antimicrobial peptide derived from the human low-molecular-weight salivary mucin MUC7, possesses potent antimicrobial activity in vitro. In order to evaluate the potential therapeutic application of the MUC7 12-mer, we examined the effects of mono- and divalent cations, EDTA, pH, and temperature on its antimicrobial activity.

Methods

Minimal Inhibitory Concentrations (MICs) were determined using a liquid growth inhibition assay in 96-well microtiter plates. MUC7 12-mer was added at concentrations of 1.56–50 μM. MICs were determined at three endpoints: MIC-0, MIC-1, and MIC-2 (the lowest drug concentration showing 10%, 25% and 50% of growth, respectively). To examine the effect of salts or EDTA, a checkerboard microdilution technique was used. Fractional inhibitory concentration index (FICi) was calculated on the basis of MIC-0. The viability of microbial cells treated with MUC7 12-mer in the presence of sodium or potassium was also determined by killing assay or flow cytometry.

Results

The MICs of MUC7 12-mer against organisms tested ranged from 6.25–50 μM. For C. albicans, antagonism (FICi 4.5) was observed for the combination of MUC7 12-mer and calcium; however, there was synergism (FICi 0.22) between MUC7 12-mer and EDTA, and the synergism was retained in the presence of calcium at its physiological concentration (1–2 mM). No antagonism but additivity or indifference (FICi 0.55–2.5) was observed for the combination of MUC7 12-mer and each K⁺, Na⁺, Mg²⁺, or Zn²⁺. MUC7 12-mer peptide (at 25 μM) also exerted killing activity in the presence of NaCl, (up to 25 mM for C. albicans and up to 150 mM for E. coli, a physiological concentration of sodium in the oral cavity and serum, respectively) and retained candidacidal activity in the presence of KCl (up to 40 mM). The peptide exhibited higher inhibitory activity against C. albicans at pH 7, 8, and 9 than at pH 5 and 6, and temperature up to 60°C did not affect the activity.

Conclusion

MUC7 12-mer peptide is effective anticandidal agent at physiological concentrations of variety of ions in the oral cavity. These results suggest that, especially in combination with EDTA, it could potentially be applied as an alternative therapeutic agent for the treatment of human oral candidiasis.     

Effect of byproduct,nitrogen fertilizer,and zeolite on phosphate rock dissolution and extractable phosphorus in acid soil

The relative plant availability of selenate versus selenite depends on the concentrations of competing ions, specifically sulfate and phosphate, respectively. In solution culture, the concentration of phosphate is typically 100- to 1000-fold greater than in soil solution, an artifact that could lead to underestimation of the phytoavailability of selenite. A nutrient solution study was conducted to compare the availability of selenite and selenate to perennial ryegrass (Lolium perenne L. cv. Evening Shade) and strawberry clover (Trifolium fragiferrum L. cv. O'Conner) at basal concentrations of SO₄ (0.5 mM) and PO₄ (2 μM) similar to those found in soil solution. Concentrations up to 5 mM SO₄ and 200 μM PO₄ allowed quantitative comparison of the efficacy of the competing ions. In both species, selenite was more phytotoxic than selenate, especially for shoot growth. Selenate was less toxic, and tended to preferentially inhibit root growth. Translocation percentages were much higher with selenate (≥84%) than with selenite (≤47%). A 10-fold increase in sulfate decreased uptake from selenate by >90% in both species. In ryegrass, 10-fold increases in phosphate caused 30% to 50% decreases in Se accumulation from selenite, but in clover such decreases only occurred in the roots. Sulfate-selenate antagonisms were thus stronger than phosphate-selenite antagonisms. Nonetheless, conventional nutrient solutions with millimolar phosphate will significantly underestimate Se availability from selenite, and moderate levels of sulfate salinity can inhibit selenate uptake sufficiently to reverse the apparent relative availability of the two forms of Se. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effect of salinity and pH on growth and agar yield of Gracilaria tenuistipitata var. liui in laboratory and outdoor cultivation

Acclimation responses of the red alga Gracilaria tenuistipitata var. liui collected on the northwest coast of Philippines were determined in laboratory setups and outdoor cultivation tanks in Haifa, Israel. Growth under laboratory conditions was influenced by all three variables studied, namely, temperature (20 or 30 ^°C), salinity (20, 30 or39‰) and seawater pH (6.5, 7.0, 8.0 or ≥ 9.0). In 250 mL flasks lacking pH control growth was influenced by temperature only at 20 ‰, whereas at 39 ‰, growth rates were similar at 20 or 30 ^°C. In 500 mL cylinders in which pH was controlled, growth rates were significantly different at a pH of 6.5 and 7.0 for all salinities, with maximal rates occurring in 39 ‰. At pH 8.0, and above, growth rates between salinities were similar and reduced to approximately 50% at a pH of 9.0 compared to rates at a pH of 6.5. Photosynthesis responses generally resembled growth responses both, in 250 mL and 500 mL cultures. In 40-L outdoor tanks, weekly growth and agar yields were apparently enhanced by increasing light intensities (up to full sunlight) and nutrient concentrations (up to 0.2 mM PO₃ ^2- and 2.0 mM NH₄ ⁺), and rates averaged four times higher than rates determined in the smaller flask cultures. This study shows broad salinity tolerance of G. tenuistipitata var. liui and its ability to sustain growth rates that are among the highest measured for Gracilaria spp. in outdoor cultures. This revised version was published online in August 2006 with corrections to the Cover Date.     

Media- and method-dependent variations in minimal inhibitory concentrations of antiplaque agents on oral bacteria

AIMS: To determine minimal inhibitory concentrations (MICs) and the percentage of nonsusceptible bacteria-- those still cultivable above a threshold concentration--in human supragingival dental plaque and saliva for antiplaque/antimicrobial agents including triclosan (TCS) and trichlorocarbanilide (TCC), and a new potential antimicrobial, 2-t-butyl-5-(4-t-butylphenyl)-phenol (DTBBP). METHODS AND RESULTS: Broth and agar dilution-based MIC tests were performed using 28 oral and nonoral bacterial strains representing 17 species. MICs for TCS were lowest and more than 100-fold lower than DTBBP (P < 0.0005) by both methods. MICs for TCS were lower in broth-based tests compared with TCC. The additions of defibrinated blood to agar and horse serum to broth increased MICs--in the case of TCS, 10- to 15-fold. Significantly higher proportions of nonsusceptible plaque and salivary bacteria were recovered from agar media containing DTBBP or TCC compared with TCS (P < 0.05). CONCLUSIONS: TCS is a more effective antimicrobial agent than either TCC or DTBBP as determined by in vitro testing. SIGNIFICANCE AND IMPACT OF THE STUDY: The utility of in vitro testing for antiplaque agents as a predictor of in vivo efficacy is affected by the methods used.     

Calcium reduces toxicity of aminoglycoside antibiotics in sugar beet explants in vitro

Aminoglycoside antibiotics are frequently used for the selection of transgenic plant cells. However, for a number of species aminoglycoside selection is inefficient. The objective of the present study was to elucidate factors affecting the phytoloxic effects of aminoglycoside antibiotics. Using non-transgenic sugar beet cotyledonary explants the interaction between three aminoglycoside antibiotics, kanamycin, neomycin and hygromycin. and Ca²⁺ was studied by monitoring the effects on growth and shoot formation. The phytotoxic effects of the aminoglycoside antibiotics were strongly dependent on the calcium concentration in the growth media. At comparable levels of the antibiotics (kanamycin 170 μ M , neomycin 220 μ M , hygromycin 9.5 μ M , an elevation of the calcium concentration from 1 to 10 m M resulted in growth increases of approximately 3-, 2.5- and 8-fold, respectively, and shoot formation was enhanced 1.5-, 2-and 6-fold, respectively. At lower concentrations of the antibiotics, the toxic effect was nearly abolished by increasing the calcium concentration. Additional magnesium, sodium and ammonium did not affect the phytotoxic effects of the aminoglycoside antibiotics. Moreover, the phytotoxic effects of the herbicides glyphosate and phosphinothricin were not decreased by additional calcium. These data suggest the existence of a specific interaction between calcium and aminoglycoside anfibiotics in plants. The implications of these results for the use of aminoglycosides as selective agents in plant transformation are discussed.     

Stability of Biopolymer Particles Formed by Heat Treatment of β-lactoglobulin/Beet Pectin Electrostatic Complexes

The purpose of this study was to examine the stability of biopolymer particles formed by heating electrostatic complexes of β-lactoglobulin and sugar beet pectin together (pH 5, 80 °C for 15 min). The effects of electrostatic interactions on the formation and stability of the particles were investigated by incorporation of different salt levels (0 to 200 mM NaCl) during the preparation procedure. Biopolymer particles were characterized by turbidity, electrophoretic mobility, dynamic light scattering, and visual observance. Salt inclusion (≥25 mM) prior to heating β-lactoglobulin/pectin complexes led to the formation of large biopolymer particles (d > 1,000 nm) that rapidly sedimented, but salt inclusion after heating (0 to 200 mM) led to the formation of biopolymer particles that remained relatively small (d < 350 nm) and were stable to sedimentation. The biopolymer particles formed in the absence of salt remained stable over a wide range of pH values (e.g., pH 3 to 7 in the presence of 200 mM NaCl). These biopolymer particles may therefore be suitable for application in a number of food products as delivery systems, clouding agents, or texture modifiers.     

Effects of extracellular calcium and potassium on the sodium pump of rat adrenal glomerulosa cells

Because the activity of thesodium pump (Na-K-ATPase) influences the secretion of aldosterone, wedetermined how extracellular potassium (K_o) and calciumaffect sodium pump activity in rat adrenal glomerulosa cells. Sodiumpump activity was measured as ouabain-sensitive ⁸⁶Rb uptakein freshly dispersed cells containing 20 mM sodium as measured withsodium-binding benzofluran isophthalate. Increasing K_o from4 to 10 mM in the presence of 1.8 mM extracellular calcium (Ca_o) stimulated sodium pump activity up to 165% andincreased intracellular free calcium as measured with fura 2. Increasing K_o from 4 to 10 mM in the absence ofCa_o stimulated the sodium pump ~30% and did not increaseintracellular free calcium concentration ([Ca²⁺]_i). In some experiments, addition of1.8 mM Ca_o in the presence of 4 mM K_o increased[Ca²⁺]_i above the levels observed in theabsence of Ca_o and stimulated the sodium pump up to 100%.Ca-dependent stimulation of the sodium pump by K_o andCa_o was inhibited by isradipine (10 µM), a blocker of L-and T-type calcium channels, by compound 48/80 (40 µg/ml) andcalmidizolium (10 µM), which inhibits calmodulin (CaM), and by KN-62(10 µM), which blocks some forms of Ca/CaM kinase II (CaMKII).Staurosporine (1 µM), which effectively blocks most forms of proteinkinase C, had no effect. In the presence of A-23187, a calciumionophore, the addition of 0.1 mM Ca_o increased[Ca²⁺]_i to the level observed in the presenceof 10 mM K_o and 1.8 mM Ca_o and stimulated thesodium pump 100%. Ca-dependent stimulation by A-23187 and 0.1 mMCa_o was not reduced by isradipine but was blocked by KN-62.Thus, under the conditions that K_o stimulates aldosteronesecretion, it stimulates the sodium pump by two mechanisms: directbinding to the pump and by increasing calcium influx, which isdependent on Ca_o. The resulting increase in[Ca²⁺]_i may stimulate the sodium pump byactivating CaM and/or CaMKII.

     

Non-transferrin bound iron measurement is influenced by chelator concentration

Release of non-protein bound iron plays an important role in the toxicity inflicted by chemotherapy in cancer patients. Since large variations have been described for different methods measuring non-transferrin bound iron (NTBI), we aimed to obtain more accurate values. After binding to the chelator nitrilotriacetic acid disodium salt (NTA) and ultrafiltration, the NTBI can be measured spectrophotometrically by the addition of thioglycolic acid (TGA) and baptophenanthroline disulfonic acid (BPT). Results demonstrated that NTBI values increased with NTA concentration. In samples incubated with 80 mM NTA, >5-fold higher NTBI values were found compared to using 10 mM NTA. Optimal concentration of NTA was established by additions of iron to serum with known latent iron-binding capacity (LIBC). Iron addition curves showed that NTBI could be measured starting from the LIBC of the serum with optimal yield after incubation with 4 mM NTA in 5 mM Tris-HCl pH 6.5, with 3 mM TGA and 6.2 mM BPT for the colour reaction. The results showed excellent correlation with 195 samples measured also by HPLC. For the spectrophotometric method, significantly higher NTBI values were measured in patient samples with maximal iron saturation compared to patients with lower iron saturation.     

In vitro culture of <Emphasis Type="Italic">Hibiscus rosa-sinensis</Emphasis> L.: Influence of iron,calcium and BAP on establishment and multiplication

Some factors influencing in vitro cultures of potted Hibiscus rosa-sinensis L. using nodal cuttings were investigated. A protocol using a modified MS medium helped to overcome chlorosis, shoot tip necrosis (STN) and leaf drop. These disorders have been caused by mineral imbalance associated with calcium and iron deficiency. STN and leaf drop were overcome by increasing calcium level from 3 mM (MS standard concentration) to 9 mM, and this increase, in addition, enhanced shoot dry weight and shoot extension. The chlorophyll content and leaf area increased by increasing the iron concentration 3-fold from 98 μM to 295 μM. Furthermore, substituting Fe-EDTA with Fe-EDDHA resulted in an increase in chlorophyll content, leaf area and shoot extension. The most suitable multiplication medium for H. rosa-sinensis L. was demonstrated to be a modified MS medium containing 2.2 μM BAP and increased concentrations of calcium at 9 mM and iron at 295 μM provided as Fe-EDDHA. The shoots were rooted in half-strength modified MS medium containing 2.7 μM NAA. Acclimatization was successful with all shoots with or without roots.     

Low extracellular calcium is sufficient for survival and proliferation of murine mesencephalic neural precursor cells

Various media and Ca²⁺ concentrations are employed to culture neural progenitor cells (NPCs). We have therefore explored the effects of extracellular calcium concentrations on the survival, proliferation, spontaneous apoptosis and self-renewal capacity of mesencephalic NPCs grown adherently and as free-floating neurospheres. We employed EMEM supplemented with various concentrations of extracellular CaCl₂ (0.1–1 mM). Raising the calcium concentration from 0.1 mM to 0.6 mM resulted in an increased number of NPCs growing as a monolayer and increased the protein yield of cells growing in neurospheres (24±3 μg total proteins in 0.1 mM Ca²⁺ medium vs. 316±34 μg proteins in 1 mM Ca²⁺ medium). Concentrations more than 0.6 mM did not result in a further improvement of proliferation or survival. Elimination of calcium from our control medium by 1 mM EGTA resulted in a decrease in cell number from 82±2×10⁴ NPCs/ml observed in control medium to 62±2×10⁴ NPCs/ml observed in calcium-free media. Protein yield dropped significantly in calcium-free media, accompanied by the decreased expression of the proliferation marker PCNA and the pro-survival marker Bcl-2. Two weeks of expansion as neurospheres caused spontaneous cell death in more than 90% of NPCs grown in 0.1 mM CaCl₂ EMEM compared with 42% in 1 mM CaCl₂ EMEM. Although the action of Ca²⁺ on NPCs appears to be complex, the presented data strongly suggest that extracellular calcium plays a crucial role in the maintenance of NPCs in a healthy and proliferating state; physiological concentrations (>1.0 mM) are not required, a concentration of 0.5 mM being adequate for cell maintenance.     

Intra- and extracellular concentrations of glutamate, lactate and acetate during growth of Corynebacterium glutamicum on different media

Corynebacterium glutamicum ATCC 17965 was cultivated in a 4-L batch aerated fermentor with glucose, fructose and mixtures of these two sugars in various proportions as carbon sources and with different concentrations of minerals and vitamins. A multilayer centrifugation technique was devised to obtain cell extracts in order to assess intracellular production of glutamate and partitioning between intracellular and extracellular spaces for lactate and acetate, the main by-products produced during the growth phase. Glutamate production increased with the proportion of glucose in the carbon source. The average value for the intracellular concentration of glutamate obtained with basic glucose medium was increased three-fold when initial concentrations of vitamins and minerals were increased four-fold. In this case, overall production of glutamate (16.3 mM) reached the highest value obtained. Production of acetate was weak on all media types (< 1.6 mm). it was the same for lactate synthesis in media where glucose remained the major carbon source (< 2.3 mm). production of lactate was significantly higher on media where fructose was the main carbon source (> 10 mM to 60 mM). The increase in lactate production and the decrease in glutamate production were correlated to a modification of carbon flux distribution between the metabolic pathways as the fructose proportion was increased. An increase in the concentration of minerals favoured production of glutamate during growth. This was correlated with an increase in the NADPH,H⁺ production rate. Received 16 January 1996/ Accepted in revised form 14 January 1997     

Effect of Antimicrobial Agents on Livestock Waste Emissions

Various antimicrobial agents were evaluated with the purpose of reducing the microbial fermentation in stored cattle waste and the resulting odor emissions. Duplicate sealed 2-L flasks with 500 ml waste slurry, with and without antimicrobial inhibitors, were used to measure the production of short-chain volatile fatty acids, lactate, and total fermentation gas over 27–30 days. A combination of chlorhexidine diacetate (2 mM), iodoacetate (2 mM), and α-pinene (3.8 mM) reduced gas production 80% (1000 ml to 200 ml) and total volatile fatty acid production 50% (145 mM to 72 mM). Pinene had little antimicrobial effect; rather, it served as an effective masking agent, giving the waste a less offensive odor. A combination of chlorhexidine diacetate and the deaminase inhibitor, diphenyliodonium chloride (1.3 mM) had a similar effect in reducing short-chain volatile fatty acid production (145 mM to 80 mM). It is concluded that a combination of antimicrobial agents may be useful in controlling odor emissions and conserving organic matter in livestock wastes, therefore providing a potentially more useful byproduct waste when used as plant fertilizer. Received: 22 November 1999 / Accepted: 5 January 2000     

Effects of population density on forest structure and species richness and diversity of trees in Kampong Thom Province, Cambodia

This study examined differences in stand structure, tree species richness, and tree species diversity in relation to population density in Kampong Thom Province, Cambodia. Tree data were obtained from a 1997 forest inventory involving 60 clusters (540 plots) systematically distributed over 30% of the provincial forest area. Spatially referenced population data were obtained from the 1998 national population census. The average number of trees per cluster was 356/ha, the average basal area, 23 m²/ha, the average stand volume, 217 m³/ha, and the average aboveground biomass, 273 Mg/ha for all trees of DBH 10 cm and larger. The average species richness per cluster was 37 species, while average species diversity was measured as 0.916 using Simpson’s index and 2.98 by Shannon’s index. Significant negative correlations were generally found between population density surrounding clusters and tree density, basal area, stand volume, aboveground biomass, and species richness and diversity for three examined diameter classes (DBH of 10–30, ≥30, and ≥10 cm). As the distance from clusters for calculating population density increased, the correlation levels increased up to 5 or 7 km, depending on the variables and diameter class, and then stayed relatively constant for stand structure variables and decreased for species richness and diversity. The results indicate that evidence of disturbance was more pronounced at higher population density up to around 5 to 7 km. We suggest that introduction of greater controls on human disturbance should be a high priority for resource management and conservation in Kampong Thom Province and, presumably, Cambodia as a whole.     

In vitro antifungal activities of voriconazole and reference agents as determined by NCCLS methods: Review of the literature

Voriconazole (Vfend™) is a new triazole that currently is undergoing phase III clinical trials. This review summarizes the published data obtained by NCCLS methods on the in vitro antifungal activity of voriconazole in comparison to itraconazole, amphotericin B, fluconazole, ketoconazole and flucytosine. Voriconazole had fungistatic activity against most yeasts and yeastlike species (minimum inhibitory concentrations [MICs] <2 μg/ml) that was similar or superior to those of fluconazole, amphotericin B, and itraconazole. Against Candida glabrata and C. krusei, voriconazole MIC ranges were 0.03 to 8 and 0.01 to >4 μg/ml, respectively. For four of the six Aspergillus spp. evaluated, voriconazole MICs (< 0.03 to 2 μg/ml) were lower than amphotericin B (0.25 to 4 μg/ml) and similar to itraconazole MICs. Voriconazole fungistatic activity against Fusarium spp. has been variable. Against F. oxysporum and solani, most studies showed MICs ranging from 0.25 to 8 μg/ml. Voriconazole had excellent fungistatic activity against five of the six species of dimorphic fungi evaluated (MIC₉₀s < 1.0 μg/ml). The exception was Sporothrix schenckii (MIC₉₀s and geometric mean MICs ≥ 8 μg/ml). Only amphotericin B had good fungistatic activity against the Zygomycetes species (voriconazole MICs ranged from 2 to >32 μg/ml). Voriconazole showed excellent in vitro activity (MICs < 0.03 to 1.0 μg/ml) against most of the 50 species of dematiaceous fungi tested, but the activity of all the agents was poor against most isolates of Scedosporium prolificans and Phaeoacremonium parasiticum (Phialophora parasitica). Voriconazole had fungicidal activity against most Aspergillus spp., B. dermatitidis, and some dematiaceous fungi. In vitro/in vivo correlations should aid in the interpretation of these results. This revised version was published online in June 2006 with corrections to the Cover Date.     

Antibiotic Susceptibility of Helicobacter pylori Clinical Isolates: Comparative Evaluation of Disk-Diffusion and E-Test Methods

Antimicrobial susceptibility of 25 Helicobacter pylori strains isolated from patients with acid peptic diseases were tested for in vitro sensitivity to commonly used antibiotics using disk-diffusion and E-test, methods. All strains tested were susceptible to tetracycline by E-test, with the minimum inhibitory concentration (MIC) values being <0.125 μg/ml for all strains except for 6 (<0.023 μg/ml). However 1 strain was resistant by disk-diffusion method. One strain was resistant to clarithromycin both by disk diffusion and E-test (MIC <48 μg/ml), and 1 strain was resistant only by disk diffusion. Only one strain was resistant to amoxicillin by disk diffusion and E-test (MIC >256 μg/ml). For ciprofloxacin, three strains were resistant by disk diffusion and two by E-test (MIC <32 μg/ml). Sixteen strains were resistant to metronidazole by disk diffusion and E-test (MIC ≥ 8 μg/ml), and 1 was resistant only by E-test (MIC <48 μg/ml). Overall, 64% of the strains were resistant to metronidazole. The MIC for metronidazole was also tested by agar-dilution method, and metronidazole resistant strains had an, MIC >8 μg/ml. The disk-diffusion method showed excellent correlation with E-test results; there was 100% agreement for amoxicillin a other antibiotics showed 90% to 95% accuracy. Disk diffusion is cheaper than E-test (approximately 2.6 cents vs. US$2.60), is easy to perform, and is a reliable method for testing H. pylori susceptibility to antimicrobial agents in the clinical microbiology laboratory.     

Formation of early-light-inducible-protein complexes and status of xanthophyll levels under high light and cold stress in barley (Hordeum vulgare L.)

In our previous work we found considerable accumulation of early light-inducible proteins (ELIPs) in barley during adaptation to combined high light and cold stress, an accumulation which occurred preferentially in the apical part of the leaves (M.-H. Montané et al., 1997, Planta 202: 293–302). Here we studied, under the same conditions, the effect of adaptation on the composition of thylakoid membrane proteins and pigments, particularly xanthophylls and chlorophyll, and their distribution within the barley leaf. It was observed that high light fluxes appeared to favour the trimerization of the light-harvesting complex of photosystem II (LHC II) whereas cold appeared to favour the monomers of LHC II. High light, cold or the combination of both factors had only a small effect on the protein composition of the thylakoid membranes except for the proteins of LHC II which were found to decrease under high light to a greater extent at 25 °C than at 5 °C. The total xanthophyll-cycle carotenoid content increased linearly with cellular development, the highest amount being observed in the apical part of the leaf. Cold and high light acted synergistically to induce less than a doubling in the amount of total xanthophylls, while chlorophylls a and b remained nearly constant. The fraction consisting of antheraxanthin plus zeaxanthin was up to 4- to 5-fold higher at 5 °C than at 25 °C. As determined previously (Montané et al. 1997), the same conditions caused a 15-fold increase in the accumulation of ELIPs. Consequently, neither the distribution of total xanthophylls nor that of antheraxanthin plus zeaxanthin along the leaf followed the same pattern as ELIP. Thus, the accumulation of xanthophylls cannot be stoichiometrically correlated with that of ELIPs. Using electrophoresis in the presence of decylmaltoside, we could demonstrate for the first time that ELIPs of 13.5 kDa are contained in high-molecular-mass complexes of >100 kDa, which are located in the unstacked stroma lamellar region of the thylakoid membranes. Received: 6 April 1998 / Accepted: 26 January 1999     

Effects of Disrupting Calcium Homeostasis on Neuronal Maturation: Early Inhibition and Later Recovery

It has become increasingly clear that agents that disrupt calcium homeostasis may also be toxic to developing neurons. Using isolated primary neurons, we sought to understand the neurotoxicity of agents such as MK801 (which blocks ligand-gated calcium entry), BAPTA (which chelates intracellular calcium), and thapsigargin (TG; which inhibits the endoplasmic reticulum Ca²⁺-ATPase pump). Thus, E18 rat cortical neurons were grown for 1 day in vitro (DIV) and then exposed to vehicle (0.1% DMSO), MK801 (0.01–20 μM), BAPTA (0.1–20 μM), or TG (0.001–1 μM) for 24 h. We found that all three agents could profoundly influence early neuronal maturation (growth cone expansion, neurite length, neurite complexity), with the order of potency being MK801 < BAPTA < TG. We next asked if cultures exposed to these agents were able to re-establish their developmental program once the agent was removed. When we examined network maturity at 4 and 7 DIV, the order of recovery was MK801 > BAPTA > TG. Thus, mechanistically distinct ways of disrupting calcium homeostasis differentially influenced both short-term and long-term neuronal maturation. These observations suggest that agents that act by altering intracellular calcium and are used in obstetrics or neonatology may be quite harmful to the still-developing human brain.