A 63 KDa toxic polypeptide fromBacillus thuringiensis subsp.kurstaki (HD-263): Effects on several lepidopteran cell lines

Summary An electrophoretically homogeneous 63 KDa polypeptide derived from the protoxin ofBacillus thuringiensis subsp.kurstaki; (HD-263) caused lysis of cells from the lepidopteran cell lines TN368, IPLB-HZ1075, LD652Y, and SF21AE. The extent of cytolysis among the different cell cultures varied according to the incubation milieu, the polypeptide, and the particular cell culture studied. Preincubation of the polypeptide with either the amino sugars galactosamine, mannosamine, glucosamine, or theirN-acetyl derivatives prevented cytolysis to a varying extent. Derivatives of galactose were more effective than those of mannose, followed by those of glucose. The amino sugars inhibited more efficiently than theN-acetyl derivatives. No inhibition was detected using the parent sugars. A baculovirus originally isolated from the lepidopteranAutographa californica was grown in TN368 cells and the extracellular virus (ECV) preincubated with varying concentrations of the polypeptide before assay. A concentration of 5 μg/ml reduced viral infectivity 99% when assayed on TN368 cells. These results support the current thinking that at least some Bt toxins may utilize specific cell-surface glycoconjugates for initiation of their toxic action and that the numbers and types of receptors may vary with the specific cell line. Also, reduction of baculovirus ECV infectivity by Bt toxic polypeptide indicates binding to a cell-surface glycoconjugate essential for initiation of infection, whether it is the normal cell receptor or a virus-coded glycoconjugate. Authorized for publication by as Journal Series Paper No. 7670.     

Activity and expression of nitrogenase in Rhodobacter capsulatus under aerobiosis in the dark and in the light

Rhodobacter capsulatus was grown chemotrophically in the dark in oxygen-regulated chemostat culture and in the presence of limiting amounts of fixed N. When the oxygen partial pressure was varied, in situ nitrogen fixation occurred only at 1% of air saturation of the medium. By contrast, nitrogenase proteins and their activity measured in the absence of oxygen could be detected up to 30% of air saturation. This revealed that expression of nitrogenase is much less sensitive toward oxygen than the in situ function of the enzyme. At oxygen partial pressures > 1% of air saturation, the degree of modification of the Fe protein of nitrogenase was increased. Light was of no stimulatory effect on both the activity and the expression of nitrogenase. This holds true for growth at 1% or 5% of air saturation. At 5% of air saturation, however, high illumination enhanced the inhibitory effect of oxygen on nitrogenase formation.     

21-kDa polypeptide,a low-molecular-weight cyclophilin,is released from pollen of higher plants into the extracellular medium in vitro

Calcium ions play a key role in the elongation and orientation of pollen tubes. We found that significant amounts of 21-kDa polypeptide were specifically released into the extracellular medium when pollen grains of lily, Lilium longiflorum Thunb., were incubated in the presence of EGTA or at low concentrations of Ca²⁺. This phenomenon was also dependent on pH and on the concentrations of MgCl₂ in the medium; the release of 21-kDa polypeptide from pollen was suppressed by increasing the MgCl₂ concentration and by lowering pH. Germination of pollen grains was inhibited in the medium into which the 21-kDa polypeptide had been released. This inhibition was irreversible; germination did not occur on transfer of the pollen grains into basal culture medium. Immuno-electron microscopy using an antibody against 21-kDa polypeptide showed that this polypeptide was present in the cytoplasm, vegetative nucleus and generative cell. When the pollen was treated with a medium containing EGTA, the density of 21-kDa polypeptide in the cytoplasm significantly decreased, but its density in vegetative nuclei and the generative cell did not, suggesting that only cytoplasmic 21-kDa polypeptide was released into the extracellular medium. The 21-kDa polypeptide was also present in the pollen of other higher-plant species, such as Tradescantia virginiana L., Nicotiana tabacum L. (angiosperms), and Cryptomeria japonica D. Don. (gymnosperm), and was also released into the medium in the presence of EGTA. In the case of C. japonica, however, it was released from pollen at alkaline pH above 8.5. The expression of 21-kDa polypeptide was not pollen-specific, because 21-kDa components immunoreactive with the anti-21-kDa polypeptide serum also existed in vegetative organs and cells of lily or tobacco. However, the 21-kDa polypeptide was not released into the extracellular medium from cultured tobacco BY-2 cells, even in the presence of EGTA. Amino acid sequences of two peptide fragments derived from 21-kDa polypeptide matched well those of low-molecular-weight cyclophilin (CyP). The antiserum against 21-kDa polypeptide recognized the CyP A from calf thymus and that in A431 carcinoma cells. The 21-kDa polypeptide fraction purified from lily pollen possessed peptidyl-prolyl cis-trans isomerase activity, which was suppressed by cyclosporin A (CsA), an inhibitor of enzyme activities of CyPs. From these results, we concluded that the 21-kDa polypeptide is a low-molecular-weight CyP. The present study showed that CyP in the pollen of higher plants is released into the extracellular matrix under unfavorable conditions.Abbreviations CaM Calmodulin - CBB Coomassie-brilliant-blue - CsA Cyclosporin A - CyP Cyclophilin     

Superoxide dismutase and catalase in Azotobacter vinelandii grown in continuous culture at different dissolved oxygen concentrations

Superoxide dismutase and catalase activities were studied in Azotobacter vinelandii grown diazotrophically at different ambient oxygen concentrations in continuous culture. Activities were expressed either as specific activity or activity per cell. Specific superoxide dismutase activity increased by a factor of 1.6 with increasing oxygen concentration from about 1% to 90% air saturation of the growth medium whereas specific catalase activity increased only slightly, if at all. Since cell volumes increased in parallel to increases in the oxygen concentration cellular superoxide dismutase activities increased by a factor of 4.3 while cellular catalase activities increased by a factor of 3.3. Under all conditions only the Fe-containing form of superoxide dismutase was detected. The possible function of these enzymes in the protection nitrogenase from oxygen damage is discussed.Abbreviation SOD superoxide dismutase     

Hemolymph oxygen content,oxyhemocyanin, protein levels and ammonia excretion in the shrimp Penaeus monodon exposed to ambient nitrite

Subadult Penaeus monodon (21.03±3.19 g) were exposed individually in sea water (30 mg·ml^-1) to 0.02 (control), 1.04, 5.02, 10.11 and 20.06 mg·l^-1 nitrite-N for 24h. Hemolymph pH, partial pressures of oxygen and carbon dioxide, bicarbonate concentration, oxyhemocyanin and protein levels, and whole animal ammonia-N excretion and nitrite-N uptake were determined. Ammonia-N excretion and hemolymph oxygen partial pressure increased, whereas hemolymph pH, HCO ₃ ^- , oxyhemocyanin, protein and the ratio of oxyhemocyanin/protein levels decreased with increasing ambient nitrite-N. It is suggested that accumulated nitrite of P. monodon following exposure to ambient nitrite causes reduction of oxyhemocyanin, protein and the ratio of oxyhemocyanin/protein in the hemolymph, and affects nitrogen metabolism and acid-base balance at low hemolymph pH.Abbreviations bw body weight - EC₅₀ concentration reducing growth rate by 50% that of controls - LC₅₀ median lethal concentration - nitrite-N nitrite concentration measured as nitrogen - PO₂ partial pressure of O₂ in hemolymph - PCO₂ partial pressure of CO₂ in hemolymph - sw sea water - ww wet weight     

Protein a of quinolinate synthetase is the site of oxygen poisoning of pyridine nucleotide coenzyme synthesis in Escherichia coli

De novo biosynthesis of pyridine nucleotide coenzymes in Escherichia coli is initiated by an enzyme complex (quinolinate synthetase) containing protein B which converts l-aspartate into iminoaspartate protein A, which then generates quinolinate on the pathway to the coenzymes. This complex has been shown to be poisoned by hyperbaric oxygen. ^7,8 We performed assays made dependent on both proteins B and A versus only protein A, using cell-free extracts of hyperbaric-oxygen poisoned and aerobically grown cells. The specific activities were produced by a similar amounts of 68% and 60%, respectively, when measured in assays made dependent on enzymes B and A versus only protein A that was derived from oxygen-poisoned extract. Thus, protein A is the oxygen-sensitive component.     

Variation of geosmin content in Anabaena cells and its relation to nitrogen utilization

The addition of the proper amount of ammonium to the culture medium containing nitrate as nitrogen source enhanced the growth rate of Anabaena viguieri. The amount of geosmin produced by these cells varied with the concentrations of ammonium added. A negative correlation between the amount of geosmin produced and of the growth rate of cells was revealed. This was also found in cells grown on various forms of nitrogen sources. Without supply of any nitrogen compound, this organism is capable of fixing gaseous nitrogen, and under these conditions the cells grew relatively slowly. However, they produced more geosmin (per unit protein mass) than cells grown in the presence of combined nitrogen. The isolation of heterocysts, in which nitrogen was fixed, showed that these cells produced higher amounts of geosmin than vegetative cells. The possible relation of nitrogen assimilation to the production of geosmin in the cells was discussed.     

Metabolic and energetic aspects of the growth of Clostridium butyricum on glucose in chemostat culture

The influence of a number of environmental parameters on the fermentation of glucose, and on the energetics of growth of Clostridium butyricum in chemostat culture, have been studied. With cultures that were continuously sparged with nitrogen gas, glucose was fermented primarily to acetate and butyrate with a fixed stoichiometry. Thus, irrespective of the growth rate, input glucose concentration specific nutrient limitation and, within limits, the culture pH value, the acetate/butyrate molar ratio in the culture extracellular fluids was uniformly 0.74±0.07. Thus, the efficiency with which ATP was generated from glucose catabolism also was constant at 3.27±0.02 mol ATP/mol glucose fermented. However, the rate of glucose fermentation at a fixed growth rate, and hence the rate of ATP generation, varied markedly under some conditions leading to changes in the Y _glucose and Y _ATP values. In general, glucose-sufficient cultures expressed lower yield values than a correponding glucose-limited culture, and this was particularly marked with a potassium-limited culture. However, with a glucose-limited culture increasing the input glucose concentration above 40g glucose·l^-1 also led to a significant decrease in the yield values that could be partially reversed by increasing the sparging rate of the nitrogen gas. Finally glucose-limited cultures immediately expressed an increased rate of glucose fermentation when relieved of their growth limitation. Since the rate of cell synthesis did not increase instantaneously, again the yield values with respect to glucose consumed and ATP generated transiently decreased.Two conditions were found to effect a change in the fermentation pattern with a lowering of the acetate/butyrate molar ratio. First, a significant decrease in this ratio was observed when a glucose-limited culture was not sparged with nitrogen gas; and second, a substantial (and progressive) decrease was observed to follow addition of increasing amounts of mannitol to a glucose-limited culture. In both cases, however, there was no apparent change in the Y _ATP value.These results are discussed with respect to two imponder-ables, namely the mechanism(s) by which C. butyricum might partially or totally dissociate catabolism from anabolism, and how it might dispose of the excess reductant [as NAD(P)H] that attends both the formation of acetate from glucose and the fermentation of mannitol. With regards to the latter, evidence is presented that supports the conclusion that the ferredoxin-mediated oxidation of NAD(P)H, generating H₂, is neither coupled to, nor driven by, an energy-yielding reaction.     

Induction and modification of dinitrogenase reductase in the unicellular cyanobacterium Synechocystis BO 8402

Oxygen is an important regulatory factor of nitrogenase induced in a unicellular cyanobacterium, Synechocystis BO 8402, during nitrogen starvation. Synthesis of the enzyme is limited by the efficiency of the cells to remove oxygen by respiration, supported by hydrogenases and, in the light, by inhibition of photosynthesis. With a polyclonal antibody against dinitrogenase reductase (the Fe protein of nitrogenase) a single polypeptide is detected, indicative of an active dimeric enzyme in dense cell suspensions. Inhibition of nitrogenase by addition of oxygen is accompanied by the appearance of a second polypeptide of the Fe protein having a 1.5 kDa higher molecular weight. This disappears upon removal of oxygen from the gas phase while nitrogenase activity is restored. No protein synthesis is required indicating that a fraction of the existing polypeptides is reversibly modified in response to oxygen. After induction of nitrogenase activity in dilute culture suspensions, both forms of the Fe-protein are found in variable amounts possibly due to oxygen contamination during the experiment.Abbreviations CAM chloramphenicol - Chl chlorophyll a - CHO carbohydrates - DCMU 3,4-dichlorophenyl-1,1-dimethylurea (diuron) - kDa kilodalton - SDS sodium dodecylsulphate     

Dependency of growth yield,maintenance and K s-values on the dissolved oxygen concentration in continuous cultures of Azotobacter vinelandii

Azotobacter vinelandii was grown diazotrophically in sucrose-limited chemostat cultures at either 12, 48, 108, 144 or 192 M dissolved oxygen. Steady state protein levels and growth yield coefficients (Y) on sucrose increased with increasing dilution rate (D). Specific rate of sucrose consumption (q) increased in direct proportion to D. Maintenance coefficients (m) extrapolated from plots of q versus D, as well as from plots of 1/Y versus 1/D exhibited a nonlinear relationship to the dissolved oxygen concentration. Constant maximal theoretical growth yield coefficients (Y ^G) of 77.7 g cells per mol of sucrose consumed were extrapolated irrespective of differences in ambient oxygen concentration. For comparison, glucose-, as well as acetate-limited cultures were grown at 108 M oxygen. Fairly identical m- and Y ^G-values, when based on mol of substrate-carbon with glucose and sucrose grown cells, indicated that both substrates were used with the same efficiency. However, acetate-limited cultures showed significantly lower m- and, at comparable, D, higher Y-values than cultures limited by either sucrose or glucose. Substrate concentrations (K _s) required for half-maximal growth rates on sucrose were not constant, they increased when the ambient oxygen concentration was raised and, at a given oxygen concentration, when D was decreased. Since biomass levels varied in linear proportion to K _s these results are interpreted in terms of variable substrate uptake activity of the culture.Abbreviations D dilution rate - K _s substrate concentration required for half maximal growth rate - m maintenance coefficient - q specific rate of substrate consumption - Y growth yield coefficient - Y ^G maximum theoretical growth yield coefficient     

Inhibitory factors involved in acetone-butanol fermentation byClostridium saccharoperbutylacetonicum

Studies carried out onClostridium saccharoperbutylacetonicum (ATCC 27022) reveal that intracellular and extracellular inhibitors, including metabolic end-products, caused the inhibition of cell growth and solvent production. Butanol at the level of 13.0 g/liter was completely inhibitory to the growth of cells, whereas butyric acid totally inhibited the cell growth at a concentration of 8.7 g/liter. Investigations carried out on the effect of addition of culture filtrate concentrate and cell-free extract concentrate indicate that nonvolatile inhibitors produced by cells were also inhibitory for bioconversion. The butanol production was found to be reduced by 15%–20% on addition of cell-free extract concentrate. Inhibition by concentrates was enhanced in the presence of butanol. Addition of heat-sterilized concentrates resulted in a reduction of inhibition.     

Effect of oxygen on batch yogurt cultures

A yogurt culture (Streptococcus thermophilus 15HA + Lactobacillus delbrueckii subsp. bulgaricus 2-11) was studied in conditions of aerobic batch fermentation (10–40% dissolved oxygen in milk). The growth and acidification of S. thermophilus 15HA were stimulated at 20% oxygen concentration and the lactic acid process in a mixed culture was shortened by 1 h (2.5 h for the aerobic culture and 3.5 h for the anaerobic mixed culture). Streptococcus thermophilus 15HA oxygen tolerance was significantly impaired at oxygen concentrations in the milk above 30%. Though S. thermophilus 15HA was able to overcome to some extent the impact of high oxygen concentration (40%), the lactic acid produced was insufficient to coagulate the milk casein (4.0 g lactic acid l⁻¹ in the mixed culture and 3.8 g lactic acid l⁻¹ in the pure culture). A dramatic decrease in the viable cell count of L. delbrueckii subsp. bulgaricus 2-11 in the pure and mixed cultures was recorded at 30% dissolved oxygen. This revised version was published online in July 2006 with corrections to the Cover Date.     

Pulvomycin,an inhibitor of prokaryotic protein biosynthesis

Antibiotic 1063-Z isolated from culture fluids of Streptoverticillium mobaraense was identified as pulvomycin. Pulvomycin was observed to inhibit protein biosynthesis in growing cells of Bacillus brevis. The poly(U)-directed poly(Phe) synthesis in cell-free systems of Bacillus brevis and Escherichia coli was highly susceptible to the antibiotic. Pulvomycin did not affect the transfer of Phe to tRNA. The results suggest that the target of pulvomycin action is the polypeptide chain elongation.     

Aerobic nitrate and nitrite reduction in continuous cultures of Escherichia coli E4

Nitrate and nitrite was reduced by Escherichia coli E4 in a l-lactate (5 mM) limited culture in a chemostat operated at dissolved oxygen concentrations corresponding to 90–100% air saturation. Nitrate reductase and nitrite reductase activity was regulated by the growth rate, and oxygen and nitrate concentrations. At a low growth rate (0.11 h^–1) nitrate and nitrite reductase activities of 200 nmol · mg^–1 protein · min^–1 and 250 nmol · mg^–1 protein · min^–1 were measured, respectively. At a high growth rate (0.55 h^–1) both enzyme activities were considerably lower (25 and 12 nmol mg^–1 · protein · min^–1). The steady state nitrite concentration in the chemostat was controlled by the combined action of the nitrate and nitrite reductase. Both nitrate and nitrite reductase activity were inversely proportional to the growth rate. The nitrite reductase activity decreased faster with growth rate than the nitrate reductase. The chemostat biomass concentration of E. coli E4, with ammonium either solely or combined with nitrate as a source of nitrogen, remained constant throughout all growth rates and was not affected by nitrite concentrations. Contrary to batch, E. coli E4 was able to grow in continuous cultures on nitrate as the sole source of nitrogen. When cultivated with nitrate as the sole source of nitrogen the chemostat biomass concentration is related to the activity of nitrate and nitrite reductase and hence, inversely proportional to growth rate.     

Production of a fibrinolytic enzyme by thermophilic Streptomyces species

A strong fibrin-specific fibrinolytic enzyme was purified from the cell-free spent culture broth of a thermophilic organism, Streptomyces megasporus SD5. The strain could produce 150 mg crude protein per litre of spent broth, with a specific activity of 80 IU (Plough units) per milligram, within 18 h of incubation at 55 °C in glucose yeast/extract/peptone (GYP) medium, pH 8.0. For production of the enzyme, the strain could utilize different carbon and nitrogen sources with a C:N ratio of ∼ 1:2. The enzyme was stable at a broad range of pH ranging from 5 to 9, and highly thermostable with 50% activity after storage at 60 °C for 6 months. The enzyme belonged to the serine endopeptidase group. In vitro clot lysis revealed that the enzyme was active at 37 °C. This revised version was published online in July 2006 with corrections to the Cover Date.     

Extracellular pH affects regulation of the pcbAB gene in Penicillium chrysogenum

The effect of extracellular pH and dissolved oxygen on regulation of the pcbAB gene in P.␣chrysogenum was examined, using Northern analysis and a reporter gene fusion. It was found that ambient pH markedly affected levels of pcbAB mRNA whereas maintenance of dissolved oxygen concentration above 10 % had no detectable effect. The presence of a DNA-binding protein, which binds upstream of the pcbAB translational start codon, was also related to ambient pH. In all fermentations, pcbAB mRNA was most abundant at around the late exponential/early stationary phase of a culture. Received: 10 May 1996 / Received revision: 14 October 1996 / Accepted: 25 October 1996     

Influence of acetate on the growth of Candida utilis in continuous culture

Candida utilis was grown on acetate in chemostat cultures that were, successively, carbon and ammonia-limited (30° C; pH 5.5). With carbon(acetate)-limited cultures, the specific rate of oxygen consumption (q _{O 2}) was not a linear function of the growth rate but was markedly stimulated at the higher dilution rates, thus effecting a marked decrease in the Y _O value. This increased respiration rate, and decreased yield value, correlated closely with a marked increase in the extracellular acetate concentration. Under ammonia-limiting conditions, very low Y _O values were found, generally comparable with those found with carbon-limited cultures growing at the higher dilution rates, but these varied markedly with the extracellular acetate concentration. Thus, when the unused acetate concentration was raised progressively from about 5 g/l to about 21 g/l, the Y _O value decreased non-linearly from 11.4 to 5.8. When the extracellular acetate concentration was further increased to 25 g/l, growth was inhibited and the culture washed out. This relationship between respiration rate and the extracellular concentration of unused acetate was also markedly influenced by the culture pH value. Thus, with a fixed extracellular acetate concentration (16±2g/l) and dilution rate (0.14 h^–1), lowering the culture pH value progressively from 6.9 to 5.1 effected a marked and progressive increase in the respiration rate. Further lowering of the culture pH to 4.8, however, caused a complete collapse of respiration. In contrast to this situation, progressively lowering the pH value of an acetatelimited culture from 6.9 to 4.5 affected only slightly the culture respiration rate, and growth was possible even at a pH value of 2.5. These results are discussed in the context of the possible mechanisms whereby acetate exerts its toxic effect on the growth of C. utilis.     

The effects of enriched CO2 atmospheres on plant-insect herbivore interactions: growth responses of larvae of the specialist butterfly,Junonia coenia (Lepidoptera: Nymphalidae)

Summary Little is known about the effects of enriched CO₂ environments, which are anticipated to exist in the next century, on natural plant-insect herbivore interactions. To begin to understand such effects on insect growth and survival, I reared both early and penultimate instar larvae of the buckeye, Junonia coenia (Lepidoptera: Nymphalidae), on leaves from one of their major hostplants, plantain, Plantago lanceolata (Plantaginaceae), grown in either ambient (350 PPM) or high (700 PPM) CO₂ atmospheres. Despite consuming more foliage, early instar larvae experienced reduced growth on high CO₂-grown compared to ambient CO₂-grown leaves. However, survivorship of early instar larvae was unaffected by the CO₂ treatment. Larval weight gain was positively correlated with the nitrogen concentration of the plant material and consumption was negatively correlated with foliar nitrogen concentration, whereas neither larval weight gain nor consumption were significantly correlated with foliar water or allelochemical concentrations. In contrast, penultimate instar larvae had similar growth rates on ambient and high CO₂-grown leaves. Significantly higher consumption rates on high CO₂-grown plants enabled penultimate instar larvae to obtain similar amounts of nitrogen in both treatments. These larvae grew at similar rates on foliage from the two CO₂ treatments, despite a reduced efficiency of conversion of ingested food (ECI) on the low nitrogen, high CO₂-grown plants. However, nitrogen utilization efficiencies (NUE) were unaffected by CO₂ treatment. Again, for late instar larvae, consumption rates were negatively correlated with foliar nitrogen concentrations, and ECI was also very highly correlated with leaf nitrogen; foliar water or allelochemical concentrations did not affect either of these parameters. Differences in growth responses of early and late instar larvae to lower nitrogen, high-CO₂ grown foliage may be due to the inability of early instar larvae to efficiently process the increased flow of food through the gut caused by additional consumption of high CO₂ foliage.     

Germination of desiccated aged akinetes of alkaliphilic cyanobacteria

Morphological and biochemical changes associated with synchronous germination of mature, aged and desiccated akinetes of two alkaliphilic cyanobacteria, Cyanospira rippkae and Cyanospira capsulata, are described. Akinetes of both strains proved to be highly resistant to desiccation, being able to germinate, in the presence of either N₂ or nitrate as nitrogen source, with a germination frequency of more than 90% after seven years of storage in a dried state. The first cell division occurred after 8–10 h of incubation, thereafter the germlings of the two strains followed a different pattern of cell differentiation. Heterocysts were first noted, in a terminal position, at 16–18 h in three-celled germlings of C. capsulata and at 21–24 h in C. rippkae, when germlings were at least seven cells in length. Akinetes of both species possessed, on a per cell basis, almost identical amounts of all photosynthetic pigments but, under nitrogen fixing conditions, photosynthetic activity (oxygen evolution) was detected only after new proteins had been synthesized, before a functional heterocyst was developed and while total nitrogen remained constant. With energy provided by aerobic respiration, a wide range of intracellular amino acids characteristic of proteins was utilised to sustain the new protein synthesis. The end of this biosynthetic activity coincided with the timing of the first cell division. From this stage on, no changes in protein concentration occurred until mature heterocysts were developed. In the presence of nitrate, no significant changes in the major germination events were observed.