Anchorage-dependent animal cell culture by using a porous microcarrier

CHO-K1 cells were cultured by using a porous microcarrier. The effects of microcarrier concentration and agitation rate on cell growth in porous microcarrier cultures were investigated. The specific growth rate of 0.041 h^–1 in porous microcarrier cultures was independent of both microcarrier concentration and agitation rate. By estimating the total surface area occupied by cells from the maximum cell number, it was found that not all the surface area of the porous microcarrier was utilizable for cell growth.The maximum cell number decreased with increasing the microcarrier concentration and the agitation rate. From this result, it was also found that not all the cells grown on the interior surface of the porous microcarrier were protected against mechanical damage due to agitation. The protection capacity of the porous microcarrier was estimated to be 300 cells/carrier. The direct gas sparging into the culture broth in porous microcarrier cultures improved the cell density without mechanical damage to animal cells.List of Symbols d m microcarrier diameter - d _i m impeller diameter - d _p m mean pore diameter - n _i s^–1 agitation rate - p Pa pressure difference - v m/s velocity of microcarrier - v _p m/s average velocity flowing through cyclinder - Pa · s viscosity of medium - angle measured from stagnant point - Pa average shear stress - Pa shear stress distribution     

THE EFFECTS OF PHENYLKETONURIC AND OTHER METABOLITES ON SULFATED GALACTOCEREBROSIDE SYNTHESIS IN VIVO AND IN CULTURE

Abstract— Sulfated galactocerebroside synthesis was examined in vitro in mouse spinal cord cultures. This system permitted the study of the effects of phenylketonuric metabolites upon synthesis of a specific myelin component, sulfatide, formed early in postnatal development in mice. A significant reduction of Na₂³⁵SO₄ incorporation into myelin sulfatide was observed when spinal cord cultures were grown in the presence of 1000 μm -l -phenylalanine and 500 μm -phenylpyruvate (51 and 700%, respectively). No reduction was observed with β-phenyllactate (300 μm and) phenylacetate (250 μm ). Light microscopy indicated that the phenylpyruvate and phenylalanine treated cultures were less extensively myelinated compared to control and β-phenyllactate or phenylacetate treated cultures. The reduction of sulfatide synthesis by phenylpyruvate was shown to be reversible. Intracerebral bilateral injections (8 μg) of l -phenylalanine, phenylpyruvate, α-ketobutyrate, α-ketoisocaproate, α-ketoisovalerate, β-phenyllactate, and phenylacetate in mice 8–15 days old, followed by i.p. administration of radioactive sulfate, resulted in significantly reduced incorporation (all P < 0.05) of sulfate into brain sulfatides with all compounds tested with the exception of β-phenyllactate and phenylacetate. In adult mouse, phenylpyruvate treatment also resulted in a significant decrease in labelling of brain sulfatide. The effects of phenylpyruvate and other metabolites upon pyruvate oxidation in mouse brain homogenates were examined by measuring ¹⁴CO₂ release from [1-¹⁴C]pyruvate. Both phenylpyruvate and α-ketoisocaproate at 1 × 10^-3 resulted in a decrease in ¹⁴CO₂ produced, while phenylacetate and β-phenyllactate had no effect. Sulfate incorporation into sulfatide was reduced by α-ketoisocaproate and phenylpyruvate, and to a lesser extent by phenylalanine, α-ketobutyrate, and α-ketoisovalerate. Phenyllactate and phenylacetate had no effect, either in vivo, or in culture. This order of effectiveness may be related in part to the effects of these compounds on pyruvate oxidation.     

Metabolism of Acetivibrio cellulolyticus during optimized growth on glucose,cellobiose and cellulose

Summary The growth of Acetivibrio cellulolyticus in 2.5 l batch cultures was optimized by controlling the growth pH at 6.7, the dissolved inorganic sulphide concentration at 0.4–0.6 mM, and by constant removal of hydrogen from the cultures by sparging with N₂/CO₂ or N₂ gas. An initial ethanol concentration of 0.15% (w/v) in cellobiose media resulted in specific growth rates which were reduced by about 75% compared to growth rates of 0.17 h^–1 in control cultures. Acetivibrio cellulolyticus had to be adapted for growth on glucose and ¹⁴C-radiotracer studies indicated that glucose was metabolized by the Embden-Meyerhof pathway. The specific growth rate (=0.03h^–1) and molar growth yield (Y_glucose=21.5) were considerably lower than those obtained (=0.17 h^–1, Y_cellobiose=68.9) in cellobiose media. A Y_ATP of 12.8 was obtained during growth on cellobiose. The mol product formed per mol Avicel cellulose fermented (on anhydroglucose equivalent basis) were 3.70 H₂, 2.64 CO₂, 0.73 acetate, 0.39 ethanol and 0.03 total soluble sugars on glucose basis. Maximum cellulase activity was observed in cellulose-grown cultures.National Research council of Canada No. 20826     

Extracellular Matrix in Early Stages of Direct Somatic Embryogenesis in Leaves of Drosera spathulata

The growth and water relations of Paulownia fortunei in photoautotrophic cultures (nutrient medium lacking sucrose and growth regulator) with CO₂ enrichment (PWAH) or without CO₂ enrichment (PWAL) were compared with those in photomixotrophic shoot (PWC; 30 g dm⁻³ sucrose and 0.3 mg dm⁻³ N⁶-benzyladenine) and root cultures (PWR; 0.3 mg dm⁻³ indole-3-butyric acid). The photoautotrophic and photomixotrophic cultures were incubated under photosynthetic photon flux 125 and 60 μmol m⁻² s⁻¹, respectively. 100 % sprouting and significantly higher number of shoots (1.6) were obtained with PWAH as compared to PWAL and PWC. PWAH and PWAL stimulated spontaneous rooting from the cut end of axillary shoots. In PWAH, 84 % of shoots rooted with an average of 5.9 roots per shoot and 4.0 cm of root length in 21 d. Rooting of photomixotrophic shoot cultures were stimulated by an auxin treatment. In this case, 98.3 % of shoots were rooted with an average of 4.6 roots per shoot and 1.9 cm length. A microscopic observation on leaf abaxial surface prints from photomixotrophic shoot and root cultures showed widely open (6 – 8 μm) spherical stomata (12 – 14 μm) and from photoautotrophic cultures elliptical stomata (10 – 12 μm) with narrow openings (3 – 4 μm). Leaves from photomixo-trophic cultures had higher stomatal index as compared to photoautotrophic cultures. The rate of moisture loss from detached leaves was not varying significantly in different cultures. This revised version was published online in July 2006 with corrections to the Cover Date.     

Metabolism of non-phenolic β-O-4 lignin model compounds by the white-rot fungus Phlebia radiata

Summary The degradation of three non-phenolic -O-4 diarylpropane lignin model compounds was studied in cultures of the white-rot fungus Phlebia radiata. The degradation pattern of the model compound 1-(3,4-dimethoxyphenyl)-2-(2-methoxyphenoxy)propane-1,3-diol (I) was also compared with that of Phanerochaete chrysosporium under conditions where both fungi were cultivated without agitation in an oxygen atmosphere. Compound I was readily degraded by both fungi, and qualitatively the degradation patterns were quite similar. The product, after C-C bond cleavage, was veratraldehyde (IV) which was almost stoichiometrically reduced to veratryl alcohol (V). However, large amounts of V were detected only in P. chrysosporium cultures. Experiments with the model compound 1-(4-ethoxy-3-methoxyphenyl)-2-(2-methoxyphenoxy)propane-1,3-diol (II) showed that in the presence of II, the total amount of veratryl compounds accounted for 15–33 m in standing cultures of Phlebia radiata. The model compound 1-(3,4-dimethoxyphenyl)-2-(4-methoxyphenoxy) propane-1,3-diol (III) was more readily degraded than I and II. The results indicated that, in P. radiata cultures, the acting enzymes were lignin peroxidases and IV reducing enzyme, while laccase was less important. Offprint requests to: A. Hatakka     

Annual productivity of Spirulina (Arthrospira) and nutrient removal in a pig wastewater recycling process under tropical conditions

An evaluation was made of the annual productivity of Spirulina (Arthrospira) and its ability to remove nutrients in outdoor raceways treating anaerobic effluents from pig wastewater under tropical conditions. The study was based at a pilot plant at La Mancha beach, State of Veracruz, Mexico. Batch or semi-continuous cultures were established at different seasons during four consecutive years. The protein content of the harvested biomass and the N and P removal from the ponds were also evaluated. Anaerobic effluents from digested pig waste were added in a proportion of 2% (v/v) to untreated sea-water diluted 1:4 with fresh water supplemented with 2 g L^–1 sodium bicarbonate, at days 0, 3 and 5. A straight filament strain of Spirulina adapted to grow in this complex medium was utilized. A pH value 9.5 ± 0.2 was maintained. The productivity of batch cultures during summer 1998 was significantly more with a pond depth of 0.10 m than with a depth 0.065 m. The average productivity of semi-continuous cultures during summer 1999 was 14.4 g m^–2 d^–1 with a pond depth of 0.15 m and 15.1 g m^–2 d^–1 with a depth of 0.20 m. The average annual productivity for semi-continuous cultures operating with depths of 0.10 m for winter and 0.15 and 0.25 m for the rest of the year, was 11.8 g m^–2 d^–1. This is the highest value reported for a Spirulina cultivation system utilising sea-water. The average protein content of the semi-continuous cultures was 48.9% ash-free dry weight. NH₄-N removal was in the range 84–96% and P removal in the range of 72–87%, depending on the depth of the culture and the season.     

Use of glucose biosensors to measure extracellular glucose exudation by intertidal microphytobenthos in southern Tasmania

Micro glucose biosensors were used to measure net extracellular glucose produced by natural microphytobenthos and three diatom cultures (Amphora coffeaeformis, Navicula menisculus, Nitzschia longissima) from southern Tasmania, Australia. They were exposed to a light gradient in either nutrient‐replete or nutrient‐limiting conditions. Glucose exudation in the natural communities increased with increased light but the response in the cultures was variable. Similarly, nutrient‐replete conditions elicited lower rates of glucose exudation in the natural communities but produced variable species‐specific responses in the cultures. Increased glucose exudation mostly correlated with a reduction in maximum quantum yield (F_v/F_m). The same trend was observed in the natural communities for relative maximum electron transfer rates (rETR_max) but responses in the cultures were again variable and species‐specific. Responses of the three species to increased light and nutrient deficiency were variable, although glucose exudation, F_v/F_m and rETR_max was mostly lower in the nutrient‐limited media. In a second set of experiments species/communities were treated with/without antibiotics. In the dark, glucose concentrations in treatments with antibiotics remained unchanged, while in those with bacteria, it fell rapidly. In the sediment communities, glucose consumption in the dark was ~25% the rate of exudation at the highest light level. In culture, exudation rates were up to 100% greater than those with active bacteria. Rates of glucose consumption in the dark in the antibiotic–treated samples were negligible and up to 10⁴ times lower than those with active bacteria. These results demonstrate the important role extracellular glucose exudation has on maintaining an active microbial loop.     

Electrochemical detection of extracellular hydrogen peroxide in Arabidopsis thaliana: a real‐time marker of oxidative stress

An electrochemical approach to directly measure the dynamic process of H₂O₂ release from cultures of Arabidopsis thaliana cells is reported. This approach is based on H₂O₂ oxidation on a Pt electrode in conjunction with continuous measurement of sample pH. For [H₂O₂] <1 mm , calibration plots were linear and the amperometric response of the electrode was maximum at pH 6. At higher concentrations ([H₂O₂] >1 mm ), the amperometric response can be described by Michaelian‐type kinetics and a mathematical expression relating current intensity and pH was obtained to quantitatively determine H₂O₂ concentration. At pH 5.5, the detection limit of the sensor was 3.1 µm (S/N = 3), with a response sensitivity of 0.16 Am ^?1 cm^?2 and reproducibility was within 6.1% in the range 1–5 × 10^?3 m (n = 5). Cell suspensions under normal physiological conditions had a pH between 5.5–5.7 and H₂O₂ concentrations in the range 7.0–20.5 µm (n = 5). The addition of exogenous H₂O₂, as well as other potential stress stimuli, was made to the cells and the change in H₂O₂ concentration was monitored. This real‐time quantitative H₂O₂ analysis is a potential marker for the evaluation of oxidative stress in plant cell cultures.     

The effects of collembola grazing on microbial activity in decomposing leaf litter

Summary Ground leaf litter was inoculated with the fungus Coriolus versicolor and incubated in respirometers for 6 days (fresh cultures) or 33 days (senescent cultures) before different number of Folsomia candida were added. Grazing by 5 animals stimulated O₂ consumption in both series of cultures but 10, 15 or 20 animals inhibited microbial respiration. The stimulatory effect was less marked in the senescent cultures. Bacterial and fungal standing crops increased in fresh cultures during the course of the experiment but grazing by collembola increased bacterial and reduced fungal standing, crops in proportion to the grazing intensity. Microbial standing crops were not determined for senescent cultures. Microarthropod feeding activities can therefore exert a strong differential effect on fungal and bacterial populations which has not been previously recognised.     

Phosphate uptake and involvement of binding protein in Tween-80 supplemented culture ofAspergillus fumigatus

Tween-80 supplementation in submerged culture ofAspergillus fumigatus resulted in an increase of phosphate uptake. The uptake system was characterized as saturable, energy-dependent and operating against the concentration gradient. Control and Tween 80 cultures showed similarK _m values for phosphate uptake (50 μm). Cold osmotic shock treatment of the cultures was found to cause considerable reduction in the ability to take up phosphorus with concomitant release of the binding protein into the shock fluid. Binding protein preparation from Tween-80 supplemented cells showed more activity than that from control cells.     

Rheological measurements of three Actinomycete in submerged cultures

Fermentation experiments were performed to obtain time-dependent data on broth rheology for three filamentous microorganisms, Streptomyces rimosus, Actinomadura roseorufa and Saccharopolyspora erythraea, cultivated under standard conditions in a mechanically stirred bioreactor. Rheological data were successfully analysed using Mitschka's technique and flow curves of the cultures described by the power law model in the range of shear rate between 5 and 100 s^–1. Consistency coefficients of the cultures were found to vary continuously with fermentation time while flow behaviour index fell sharply within the first few hours of cultivation and then remained practically unchanged till the end of fermentation. The pH of the biomass was found to have a strong influence on both consistency coefficient and flow behaviour index.List of Symbols k n Mitschka shear rate constant - K consistency coefficient (Pa s ⁿ ) - n flow behaviour index (–) - N spindle speed (rps) - T torque on spindle (Nm) - gg _A average shear rate (s^–1)     

Effects of Chemical and Physical Conditions on Growth of Camptotheca acuminata Cell Cultures

Callus was induced from Camptotheca acuminata, which produces an antitumor alkaloid, carnptothecin. Using the Murashige and Skoogs’ medium as the basal, cultural conditions were examined for C. acuminata suspension cultures. As a result, a medium, containing 0.1 mg/liter 2,4-D, 3 mg/liter kinetin and 0.05 mg/liter GA₃, was established as a medium that gave the best cell growth in suspension cultures. In addition, conditioning of medium and addition of 0.115 mm l-Trp and l-Phe to medium promoted remarkably growth of cell suspensions.     

Enhancement of specific nitrogenase activity inAzospirillum brasilense andKlebsiella pneumoniae,inhibition inRhizobium japonicum under air by phenol

Specific nitrogenase activity inAzospirillum brasilense ATCC 29145 in surface cultures under air is enhanced from about 50 nmol C₂H₄·mg protein^-1·h^-1 to 400 nmol C₂H₄ by the addition of 1 mM phenol. 0.5 and 2 mM phenol added increase the rate 5-fold and 4-fold. This enhancement effect is observed only between 2 and 3 days after inoculation, with only a small reduction of the growth of the cells by the phenol added. In surface cultures under 1% O₂, nitrogenase activity is slightly reduced by the addition of 1–0.01 mM phenol. Utilization of succinate is enhanced during the period of maximum enhancement of nitrogenase activity by 60% by addition of 1 mM phenol. The cells did not produce¹⁴CO₂ from [U-¹⁴C] phenol, neither in surface cultures nor in liquid cultures and less than 0.1% of the phenol was incorporated into the cells. A smaller but significant enhancement of nitrogenase activity by about 100% in surface cultures under air was found withKlebsiella pneumoniae K 11 after addition of 1 mM phenol. However, inRhizobium japonicum 61-A-101 all phenol concentrations above 0.01 mM reduced nitrogenase activity. With 1 mM phenol added activity was reduced to less than 10% with no effect on the growth in the same cultivation system. With thisRhizobium japonicum strain significant quantities of phenol (25 mol in 24 h by 2·10¹² cells) were metabolized to¹⁴CO₂, with phenol as sole carbon source. WithAzospirillum brasilense in liquid culture under 1% and 2% O₂ in the gas phase, no enhancement of nitrogenase activity by phenol was noticed.     

Characterization of multisporic and monosporic isolates of Lecanicillium (= Verticillium) lecanii for the management of Toxoptera aurantii in cocoa

Seven multisporic isolates, two from Cuba, four from the Southeastern State ofTabasco and two from Central Mexico, weremorphologically and physiologically comparedwith 28 monosporic isolates (four permultisporic isolate) of the fungus Lecanicillium (= Verticillium) lecanii.Mycelium type and colony appearance wereassociated with specific conidial length,conidial production and germination speed. Ingeneral, isolates with a cottony-likeappearance of the mycelium and without anystriations had small conidia and a highconidial production; the opposite was found forisolates with sparse mycelium and striatedcolonies. There was an inverse correlationbetween germination time of 50% of theconidia (GT₅₀) and their length (r =–0.72, P = 0.01). Three conidia length groupswere determined: small (2.9–3.9 µm),intermediate (4.6–5.8 µm), and large(6.5–8.8 µm). Based on shape, five groups of conidia were distinguished:cylindrical with half constriction and roundedends; crescent-shape, curved with both endsacute; conidia with one end somewhat moredistinctly narrowed; lanceolate form; andovoid to ellipsoidal shape. Differenceswere found between monosporic cultures andmultisporic isolates, particularly withGTM₅₀ and conidial production where severalmonosporic cultures exceeded their multisporicisolates. Results of analyses with singlecharacteristics were also confirmed withmultivariate analysis helping to identify thatthe four Tabasco groups were morphologicallyand physiologically more variable. Based onthese results it is possible to improve thecontrol potential of isolates of L. lecaniiby making monosporic cultures.     

Expressing creatine kinase in transgenic tobacco – a first step towards introducing an energy buffering system in plants

Creatine kinase a key enzyme in cellular energy homeostasis of vertebrates offers the promise of engineering plants with enhanced stress tolerance. In order to provide plants with such an energy buffering system, tobacco was transformed with a cDNA, encoding the cytosolic brain-type isoform of chicken creatine kinase (BB-CK), the expression of which was under the control of the cauliflower mosaic virus 35S (CaMV 35S) promoter. Transgenic tobacco plants were selected and suspension cultures generated. Both transgenic plants and suspension cultures were shown to stably express enzymatically active BB-CK in vitro and in vivo, and in most cases for three successive generations (T₀–T₂). Exogenously supplied creatine was shown to enter the plant cells and resulted in only a slight reduction in root growth at concentrations up to 10mM. Furthermore, the BB-CK expressing tobacco plants and cell suspension cultures were able to convert creatine into phosphocreatine.     

The influence of different carbon sources and medium osmolarity on the potassium requirements of Candida utilis NCYC 321, growing in continuous culture

In order to study the influence of different carbon sources on the K⁺-requirements of Candida utilis NCYC 321, this yeast was grown at several different dilution rates in potassium-limited continuous cultures with either glucose, glycerol, ethanol, citrate or lactate serving as the carbon and energy source.It was found that the nature of the carbon source profoundly influenced the cellular potassium content, especially at low dilution rates, but that these differences could not be correlated with any differences in relative growth rate (i.e., / _max. And although small amounts of potassium seemingly were needed to serve in osmoregulation and in the cotransport of some acidic carbon sources (lactate and citrate), these requirements were negligible.Independent of carbon source, a strong correlation existed between the intracellular potassium concentration and the yield value on oxygen (Y _O), and between cellular potassium concentration and growth rate. From these two correlations it was concluded that potassium probably was involved mainly in processes associated with ATP synthesis in this yeast.Finally the effect of the addition of NaCl to the medium was tested with glucose-containing cultures that were either carbon- or potassium-limited. Up to a concentration of 20 g/l, NaCl was without influence on Y _O, Y _glucose and q _{O 2}, but effected a slight increase in the cellular potassium content of the potassium-limited cells and a decrease in that of the glucose-limited cells.     

Nitrogenase activity,amino acid pool patterns and amination in blue-green algae

Summary The free amino acid pools in the nitrogen-fixing blue-green algae Anabaena cylindrica, A. flos-aquae and Westiellopsis prolifica contain a variety of amino acids with aspartic acid, glutamic acid and the amide glutamine being present in much higher concentrations than the others. This pattern is characteristic of that found in organisms having glutamine synthetage/glutamate synthetase [glutamine amide-2-oxoglutarate amino transferase (oxido-reductase)] as an important pathway of ammonia incorporation. Under nitrogen-starved conditions the level of acetylene reduction (nitrogen fixation) and the glutamine pool both increase but the free ammonia pool decreases, suggesting that ammonia rather than glutamine regulates nitrogen fixation.Glutamine synthetase has been demonstrated in Anabaena cylindrica using the -glutamyl transferase assay and also using a biosynthetic assay in which P_i release from ATP during glutamine synthesis was measured. The enzyme (-glutamyl transferase assay) is present in nitrogen-fixing cultures and activity is higher in aerobic than in microaerophilic cultures. Ammonium-grown cultures have lowest levels of all and activity in the presence of nitrate-nitrogen (150 mg nitrogen 1^-1) is lower than in aerobic cultures growing on elemental nitrogen. Ammonium-nitrogen and nitrate-nitrogen have no effect on glutamine synthetase in vitro. Glutamate synthetase also operates in nitrogen-fixing cultures of Anabaena cylindrica.     

Modulation of allo-immune responsesin vivo andin vitro by sperm specific lactate dehydrogenase-C4

The role of sperm specific lactate dehydrogenase-C₄ (LDH-C₄) in allo-immune responses using mixed lymphocyte cultures (MLC) and cytotoxic T cell (CTL) generationin vitro and local graft versus host (LGVH) reaction and allograft enhancementin vivo has been ascertained. LDH was purified from testes (LDH-C₄) and kidney (LDH-B₄) of C57 Bl/Ks mice. MLC and CTL were performed using C57 Bl/Ks-anti A/J lymphocytes in presence of 10^–3-1 g LDH-B₄ or LDH-C₄ per culture. The MLC and CTL responses showed biphasic action depending on the dose of LDH-C₄. Early MLC culture gave significantly low stimulation index at 10^–2–10^–1 g LDH-C₄ as compared to non-treated control cultures. However, the MLC response in presence of LDH-C₄ was not different from the LDH-B₄ treated one which showed a similar biphasic trend. On the other hand,⁵¹Cr release from YAC-222 target cells was practically abolished by LDH-C₄ at 10^–3–1^–1 g, and this was strikingly different from LDH-B₄ or non-treated cultures. LGVH reactivity as performed by using C57 Bl/Ks lymphocytes along with LDH-C₄ in (C57 Bl/Ks x A/J) F₁ hybrids indicated a suppression of stimulation index in primary and secondary (i.e. preimmunized in presence of LDH-C₄ or LDH-B₄) LGVH. Allograft enhancement of Sa I (A/J) in C57 Bl/Ks mice in presence of LDH-C₄, was delayed slightly but significantly during primary or secondary transplantation reaction. The reaction of LDH-C₄ in the modulation of allo-immune responses was more specificin vivo thanin vitro since the B₄ isozyme did not modify LGVH and Sa1 allograft rejection. Resultsper se suggest that LDH-C₄ is immunosuppressive for cell mediated allo-immune responsesin vivo andin vitro.     

Effects of organic compounds on growth of chemostat cultures of Thiomicrospira pelophila,Thiobacillus thioparus and Thiobacillus neapolitanus

Summary Cultures of Thiomicrospira pelophila, Thiobacillus thioparus and Thiobacillus neapolitanus were grown in thiosulfate-limited chemostats in a mineralsthiosulfate medium with and without organic supplements. Acetate, succinate and mixtures of amino acids increased the dry weight by 12–24% and the protein by 11–38%. Addition of both acetate and succinate had a cumulative effect. Saccharose, glucose, fructose, ribose, glycerol, glycerate, pyruvate, lactate or malate were without effect. The increase in dry weight of T. neapolitanus by ¹⁴C-acetate was directly related to the relative contribution of this compound to the total cell carbon.In CO₂-limited cultures of T. neapolitanus the effects of acetate on dry weight and protein were similar to those found in thiosulfate-limited cultures. In CO₂-limited cultures of T. pelophila a combination of acetate and succinate caused an increase in dry weight of 27% and of 50% in protein, the increase in protein being twice as high as in thiosulfate-limited cultures.There were no measurable differences in the activities of ribulosediphosphate carboxylase (RudPcase) in cell free extracts obtained from thiosulfate- or CO₂-limited cultures of T. pelophila or T. neapolitanus grown in the presence or absence of organic compounds. In T. pelophila the RudPcase activity was almost constant at all growth rates tested, and independent of the type of growth-limitation. For T. neapolitanus the specific RudPcase activity varied slightly with the growth rate. In CO₂-limited cultures the activity was three times that found in thiosulfate-limited cultures, thus showing that the RudPcase activity can be influenced by nutritional conditions.     

Xylanolytic anaerobic thermophiles from Icelandic hot-springs

Anaerobic enrichment cultures inoculated with neutral and alkaline (pH 7.0–9.0) sediment and biomat samples from hot-springs in Hveragerdi and Fluir, Iceland, were screened for growth on beech xylan from pH 8.0 to 10.0 at 68° C: no growth occured in cultures above pH 8.4. Five anaerobic xylanolytic bacteria were isolated from enrichment cultures at pH 8.4; all five microbes were Gram-positive rods with terminal spores, and produced CO₂, H₂, acetate, lactate and ethanol from xylan and xylose. One of the isolates, strain A2, grew from 50 to 75° C, with optimum growth near 68° C, and from pH 5.2 to 9.0 with an optimum between 6.8 and 7.4. Taxonomically, strain A2 was most similar to Clostridium thermohydrosulfuricum. At pH 7.0, the supernatant xylanases of strain A2 had a temperature range from 50 to 78° C with an optimum between 68 and 78° C. At 68° C, xylanase activity occurred from pH 4.9 to 9.1, with an optimum from pH 5.0 to 6.6. At pH 7.0 and 68° C, the K _m of the supernatant xylanases was 2.75 g xylan/l and the V _max was 2.65 × 10^–6 kat/l culture supernatant. When grown on xylose, xylanase production was as high as when grown on xylan. Correspondence to: B. K. Ahring