Presence of two subunit types in ribulose-1,5-bisphosphate carboxylase from blue-green algae.

Ribulose-1,5-bisphosphate car?ylase (E.C. 4.1.1.39) from 2 blue-green algae, Plectonema boryanum and Anabaena variabilis, was isolated by sucrose density gradient centrifugation. Both enzymes had a sedimentation value of about 18s, similar to that of Chromatium enzyme. The presence of two subunits (A, B) in the algal enzyme was demonstrated by Nadodecyl sulfate polyacrylamide gel electrophoresis. The molecular weight of the two subunits was determined: for Plectonema A, 5.4 × 10⁴ and B, 1.3 × 10⁴ and Anabaena A, 5.2 × 10⁴ and B, 1.3 × 10⁴, respectively. The car?ylase reaction catalysed by the algal enzyme was similar to the higher plant enzyme in exhibiting the Mg²⁺-effect, the optimal pH shifting from alkaline to neutral by elevating the concentration of Mg²⁺ in the assay mixture. The rabbit antisera developed against the spinach ribulose-1,5-bisphosphate car?ylase and its catalytic oligomer exhibited significant inhibitory effects on the car?ylation reaction catalysed by the algal enzyme.     

ALKALINE PHOSPHATASE ACTIVITIES AMONG POPULATIONS OF THE COLONY-FORMING DIAZOTROPHIC CYANOBACTERIUM TRICHODESMIUM SPP. (CYANOBACTERIA) IN THE RED SEA

Alkaline phosphatase activities of the diazotrophic marine cyanobacterium Trichodesmium were studied among natural populations in the northern Red Sea and in laboratory cultures of Trichodesmium sp. strain WH9601. Open-water tuft-shaped colonies of Trichodesmium showed high alkaline phosphatase activities with 2.4–11.7 μmol p-nitrophenylphosphate (PNPP) hydrolyzed·μg chl a ^{− 1}·h ^{− 1}, irrespective of date or origin of the sample. Coastal populations of the Trichodesmium tuft colonies had low alkaline phosphatase activities with 0.2–0.5 μmol PNPP·μg chl a ^{− 1}·h ^{− 1}. An exception was the Trichodesmium fall maximum, when both tuft colonies and the plankton community (<100 μm) had alkaline phosphatase activities of 0.6–7.4 μmol PNPP·μg chl a ^{− 1}·h ^{− 1}. Likewise, the more rare puff and bow-tie colonies of Trichodesmium spp. in coastal waters had elevated alkaline phosphatase activities (0.8–1.6 μmol PNPP·μg chl a ^{− 1}·h ^{− 1}) as compared with tuft colonies coinhabiting the same waters. Intact filaments of tuft-forming Trichodesmium sp. strain WH9601 from phosphate-replete cultures had a base alkaline phosphatase activity of 0.5 μmol PNPP·μg chl a ^{− 1}·h ^{− 1}. This activity underwent a 10-fold increase in phosphate-deplete cultures and in cultures supplied with glycerophosphate as the sole P source. The elevated level of alkaline phosphatase activity was sustained in P-deplete cultures, but it declined in cultures with glycerophosphate. The decline is suggested to result from feedback repression of alkaline phosphatase synthesis by the phosphate generated in the glycerophosphate hydrolysis. The enhanced alkaline phosphatase activities of Trichodesmium spp. populations provide evidence that P stress is an important factor in the ecology of Trichodesmium in the northern Red Sea.     

Production of phosphatates by fungi isolated from desert soils

Twelve fungal cultures isolated from Indian desert soils belonging toAspergillus, Penicillium, Acrophialophora andAlternaria were found to produce both acid and alkaline phosphatases in liquid medium, their amounts varying from culture to culture. Maximum production of these enzymes was observed withA. niger. In general, acid phosphatase activity was much higher as compared to alkaline phosphatase. The optimum incubation period for the production of these enzymes was found to be 14 d and thereafter it started declining. There was a significant and positive correlation between biomass production and acid phosphatase activity but not with alkaline phosphatase.     

Growth,nitrogen fixation,and mass culture of isolatedAnabaena azollae

Summary An independent strain ofAnabaena azollae was evaluated for its potential as a biofertilizer in wetland rice fields. Sustained rapid growth (doubling time=10.5 h) and nitrogenase activity (32 nmol C₂H₄ h^–1 g^–1 chl) was recorded. Mass cultivation (up to 300 litres) for the first time with this species was also achieved.     

Regulation of cell proliferation and morphogenesis by amino acids inBrassica tissue cultures and its correlation with threonine deaminase

The effect of amino acids has been investigated with respect to the capacity ofBrassica cultures to undergo proliferation and differentiation. Hormone medium without any amino acid resulted in 6% shoot formation. Addition of optimal concentrations of L-leucine and L-isoleucine enhanced shoot formation upto 30% and 60%, respectively. L-methionine, L-threonine and pyruvic acid supported only proliferation but no differentiation. Amino acids had a marked effect on the activity of enzyme threonine deaminase (TD), bothin vivo andin vitro. TD in proliferating callus cultures was 3-fold higher than in differentiating cultures. Amino acids which induced cell proliferation increased TD while those which supported differentiation repressed it. Amino acids which did not alter TD activity had no effect on morphogenesis. The results suggest that amino acids play a regulatory role inBrassica morphogenesis which can be correlated with the activity of threonine deaminase.     

Sodium is required for nitrogenase activity in cyanobacteria

The cyanobacteriaAnabaena torulosa andAnabaena L-31 require sodium (Na⁺) for growth on N₂ but not in the presence of NH₄ ⁺. Na⁺-starved cultures show relatively little or no nitrogenase activity although they differentiate normal heterocysts. Nitrogenase activity appears rapidly on addition of Na⁺ to Na⁺-starved cultures. The time course of appearance of activity after addition of Na⁺ suggests that Na⁺ is involved in activation of the existing enzyme rather than in its de novo synthesis.     

A novel method to produce Anabaena-free Azolla by in vitro fertilization of micromanipulated megasporocarps

In the Azolla-Anabaena azollae symbiotic system, Anabaena akinetes get entrapped between the indusium and the apical cap of the megaspore apparatus during megasporocarp development, thus maintaining the continuity of the cyanobacterial association throughout the life cycle of the fern. The entrapped akinetes serve as the source of inoculum for infecting the new sporophyte when it is emerging from the megaspore apparatus. A procedure to generate Anabaena-free Azolla was developed by fertilizing the germinating megasporocarps in which the indusium along with the akinetes were removed by micromanipulation. This method has the advantage of not requiring drastic treatments of Azolla with antibiotics to eliminate the endosymbiotic cyanobacterial cells. Details of this new method and its usefulness in studies aimed at recombination of Azolla with Anabaena azollae are discussed.Abbreviations IRRI International Rice Research Institute - I^– IRRI medium devoid of combined nitrogen - I⁺ IRRI medium containing combined nitrogen - SDS sodium dodecyl sulfate     

Effect of gelatin-immobilization on the catalytic activity of enzymes and microbial cells

Summary The immobilization of enzymes and microbial cells within insolubilized gelatin involves both physical entrapment and covalent crosslinking, each one playing its role. The effect of this dual type of bonding on the kinetic parameters and activity yield of three enzymes (acid phosphatase, invertase and -glucosidase) and of whole microbial cells belonging to three yeast species (Saccharomyces cerevisiae,Candida utilis andKluyveromyces marxianus) have been investigated.     

Effect of manganese on alkaline phosphatase production in Bacillus sp. RK11

Summary Bacillus sp. RKll, an alkalophilic isolate from soil, produces an extracellular alkaline phosphatase. In the absence of Mn²⁺ in a complex medium, no alkaline phosphatase production or sporulation by the organism was detected. No other divalent metal could be substituted for Mn²⁺ in enzyme production or in sporulation. Manganous sulphate (70 mol) gave highest enzyme production although spore numbers continued to increase with manganous concentrations above this level. Maximum alkaline phosphatase production occurred when the metal was present at the time of inoculation but maximum spore numbers were detected when the metal was added 8–12h after inoculation. Inorganic pyrophosphatase was not associated with extracellular alkaline phosphatase, but it was detected intracellularly. Ninety-five percent of the alkaline phosphatase was detected extracellularly.     

In vivo regulation of glutamine synthetase by ammonium in the cyanobacterium Anabaena L-31

In cell-free preparations of NH₄⁺-grown cultures of the cyanobacterium Anabaena L-31 the glutamine synthetase activity is only half as much as in N₂-grown cultures. Using a procedure which enables quantitative purification of the enzyme to homogeneity it has been shown that the decrease in the enzyme activity is caused by NH₄⁺-mediated repression. Glutamine synthetase activity in both N₂-grown and NH₄⁺-grown Anabaena remains stable for more than 24 h in the presence of chloramphenicol suggesting low enzyme turnover and an enzyme half-life greater than the generation time (16–18 h) of the cyanobacterium. In N₂-grown cultures, a drastic decrease in the enzyme activity by exogenous NH₄⁺ can be discerned when fresh protein synthesis is prevented by chloramphenicol. The enzyme purified from such cultures has K_m values for NH₄⁺, glutamate Mg²⁺, and ATP similar to those observed for the enzyme from N₂- and NH₄⁺-grown Anabaena, but shows depression in V for all the substrates, leading to drastic decrease in specific activity. The modified enzyme also shows a sharper thermal denaturation profile. These results indicate that NH₄⁺-mediated modification to a less active form may be a means of regulation of glutamine synthetase in N₂-fixing cultures of Anabaena.     

Inactivation of Cyanobacterial Nitrogenase After Exposure to Ultraviolet-B Radiation

Exposure of the N₂-fixing cyanobacterium Anabaena BT2 to ultraviolet-B radiation (2.5 W m⁻²) for 30 min resulted in complete loss of nitrogenase activity but 100% cell killing occurred only after a 90-min exposure. Inactivation of nitrogenase activity was not specific to Anabaena BT2; other species also showed a similar effect. The time required for 100% killing and inactivation of nitrogenase activity differed in various species, and this difference may be ascribed to the presence of different levels of UV-B protection mechanisms in individual species. Inhibition of nitrogenase activity was immediate, since exposure of cultures to UV-B for as little as 5 min elicited some inhibition of activity. The activity of UV-B-inhibited nitrogenase did not recover upon transfer of exposed cells to fluorescent light, suggesting that the inhibition may be due to specific inactivation of the enzyme. By employment of inhibitors of protein synthesis and PS-II activity, it was demonstrated that restoration of nitrogenase activity in a UV-B-treated culture occurred by fresh synthesis of nitrogenase polypeptide. Our findings suggest that estimation of nitrogenase activity in diazotrophic species may be used as a marker enzyme for assessing the impact of UV-B radiation. Received: 13 June 2002 / Accepted: 22 July 2002     

CHARACTERISTICS OF PHOSPHORUS DEFICIENCY IN ANABAENA1

Several aspects of the metabolism and composition of a strain of Anabaena have been studied during phosphorus deficiency. The effects of medium composition, substrate concentration, temperature, pH, and illumination on alkaline phosphatase activity and phosphate uptake have been examined. Of particular interest among these results was the dependence of maximum alkaline phosphatase activity on Ca and of phosphate uptake on Mg. Depletion of dissolved phosphate from the culture medium runs accompanied by a marked increase in alkaline phosphatase activity, initial rate of phosphate uptake, and total amount of phosphate taken up to satisfaction of the phosphorus debt. Readdition of phosphate to a phosphorus-deficient culture resulted in a rapid decline in the ability to take up phosphate but no loss of alkaline phosphatase beyond dilution of activity already present. Entry into phophorus deficiency was accompanied by a loss of heterocysts, a decline in chlorophyll a, protein, RNA, and cellular phosphorus, and an increase in carbohydrate per unit dry weight. The possible use of these changes as physiological indicators of phosphorus limitation in natural situations is discussed.     

Photosynthetic ability in dark-grown Reboulia hemisphaerica and Barbula unguiculata cells in suspension culture

Suspension cultured cells of the liverwort, Reboulia hemisphaerica and of the moss, Barbula unguiculata were independently subcultured in the medium containing 2% glucose in the dark or in the light for more than one year, and the photosynthetic activities of the final cultures were determined. Throughout the culture period light-grown cells of both species contained high amount of chlorophyll (4 to 34 g mg^–1 dry weight) and showed a high photosynthetic activity (10 to 84 mol O₂ mg^–1 chlorophyll h^–1). Dark-grown cells of R. hemisphaerica showed the same level of chlorophyll content and photosynthetic O₂ evolving activity as light-grown cells. Although chlorophyll content in dark-grown B. unguiculata cells was ten-fold lower than that in light-grown cells, the photosynthetic activity of these dark-grown cells was higher than that of light-grown cells based on chlorophyll content.     

Ion-transporting ATPases and matrix mineralization in cultured osteoblastlike cells

Summary Cultures of osteoblastlike cells obtained from the endosteal surfaces of rabbit long bones formed and mineralized an extracellular matrix when they were supplied daily with medium containing fresh ascorbate. No matrix formed without this supplementation. The matrix mineralized whether or not beta-glycerophosphate, a substrate of alkaline phosphatase, was added to the medium. The ion-transporting ATPase activities of untreated, ascorbate-treated, and ascorbate plus beta-glycerophosphate-treated cells were measured. Ascorbate-treated and ascorbate plus beta-glycerophosphate-treated cells had similar enzyme activities. The activities of the Ca²⁺-ATPase; Ca²⁺,Mg²⁺-ATPase; and alkaline phosphatase in treated cells were elevated over the activities in untreated cells. Na⁺,K⁺-ATPase activity was lower in treated than in untreated cells. HCO₃ ⁻-ATPase activity was not changed by treatment. Alkaline phosphatase activity was 20 times higher in freshly isolated osteoblastlike cells than in cells grown to confluence in primary culture. In addition, subculturing further reduced the activity of this osteoblast-marker enzyme. The activities of the ion-transporting ATPases and alkaline phosphatase in second passage cells were similar to the activities of these enzymes in fresh, noncalcifying tissues. Nevertheless, second passage cells retain the ability to mineralize an extracellular matrix, and their ion-transporting ATPase and alkaline phosphatase activities are altered when the cells mineralize a matrix. This work was supported by Grant NAG-2-108 from the National Aeronautics and Space Administration, Washington, D.C., and Grant 5 PO1 NS15767 from the National Institute of Neurological and Communicative Disorders and Stroke, Bethesda, MD.     

Ammonium ion-excreting cyanobacterial mutant as a source of nitrogen for growth of rice: A feasibility study

Summary Growth of rice plants in a nitrogen-free medium was enhanced by inoculation with a nitrogenase-derepressed mutant (strain SA-1) of a cyanobacterium,Anabaena variabilis which excretes NH₄ ⁺ into the medium. Both total dry weight and nitrogen content of rice plants were substantially increased in the presence of the mutant strain but not with the wild type parent, strain SA-0.     

Identification of several species of phospholipase inhibitory protein(s) by radioimmunoassay for lipomodulin

Radioimmunoassay of lipomodulin has been developed using a monoclonal anti-lipomodulin antibody and ¹²⁵I-labelled lipomodulin. Lipomodulin activity was measured in peritoneal lavage fluids obtained from rats injected with dexamethasone by radioimmunoassay and by enzymatic assay with phospholipase A₂. Three species of immunoreactive substances with Mr= 40,000, 30,000 and 16,000 were found. While two species of Mr= 40,000 and 30,000 had phospholipase inhibitory activities, the species of Mr= 16,000 could inhibit phospholipase A₂ only after dephosphorylation by alkaline phosphatase treatment.     

Thermophilic methanogenesis from sugar beet pulp by a defined mixed bacterial culture

Summary Thermophilic degradation of sugar beet pulp was studied in batch cultures at 55°C by different associations of bacteria, includingClostridium thermocellum,Methanobacterium sp. andMethanosarcina MP.C. thermocellum produced acetate, succinate, methanol, ethanol, H₂ and CO₂. The coculture ofC. thermocellum andMethanobacterium sp. produced trace amounts of ethanol and succinate; acetate concentration was about three times higher than in theC. thermocellum monoculture. The association of this coculture withMethanosarcina MP produced 5.5 mmol CH₄/g dry weight sugar beet pulp.     

Alkaline phosphatase activity and the regulation of growth in transformed mammalian cells

The relationship between alkaline phosphatase activity and cell growth has been studied in hamster cells transformed by different carcinogens. About 90% of normal hamster embryo cells were constitutively positive for alkaline phosphatase activity (AP⁺). However, there were no AP⁺ cells in cell lines transformed after treatment with the chemical carcinogens dimethylnitrosamine or 4-nitro-quinoline-N-oxide and 0.02% and 4% AP⁺ cells in cell lines transformed by polyoma virus or Simian virus 40. The glucocorticoid hormone, prednisolone, induced alkaline phosphatase activity in 12% and 44% of the enzyme-negative (AP^?) cells in cell lines transformed by polyoma or Simian virus 40, but this hormone did not induce alkaline phosphatase activity in AP^? cells from cell lines transformed after treatment with the chemical carcinogens. Treatment of polyoma transformed AP^? cells with the mutagen N-methyl-N′-nitro-N-nitro-soguanidine produced AP⁺ cells, whereas no AP⁺ cells were found after mutagen treatment of AP^? cells from the chemically transformed cell lines. Studies on spontaneous segregation in the polyoma transformed cell line has shown that AP⁺ cells segregated AP^? cells both in vitro and in vivo, although no spontaneous segregation was observed from AP^? to AP⁺ cells. AP⁺ cells, compared to AP^? cells, showed a decrease in DNA synthesis, cell multiplication, the ability to form colonies in soft agar and tumorogenicity in animals. AP^? cells induced for alkaline phosphatase activity by prednisolone, showed the same growth properties in vitro as uninduced AP^? cells. The decreased cell growth found in AP⁺ cells which were constitutive for alkaline phosphatase activity was therefore not found in the hormone induced AP^? cells. The results indicate that constitutive alkaline phosphatase activity appears to be related to the regulation of cell growth and that AP^? cells have a selective advantage over AP⁺ cells.     

Effect of Aluminum Phosphate on Alkaline Phosphatase Activity of Polyurethane Foam Immobilized Cyanobacteria

The impact of insoluble phosphorus such as aluminum and rock phosphate on alkaline phosphatase activity of polyurethane foam immobilized cyanobacteria was assessed. Polyurethane foam immobilized Nodularia recorded the highest alkaline phosphatase activity of 9.04 (m. mol p-nitrophenol released h^–1 mg^–1 protein) in vitro. A higher concentration of aluminum phosphate was recorded a 25% reduction in alkaline phosphatase activity, ammonia content, and available phosphorus in culture filtrate of polyurethane foam immobilized cyanobacteria. In general, immobilized cyanobacteria exhibited a higher alkaline phosphatase activity in rock phosphate than aluminum phosphate.     

The effect of aeration on D-xylose fermentation byPachysolen tannophilus,Pichia stipitis,Kluyveromyces marxianus andCandida shehatae

Summary The fermentation of D-xylose byPachysolen tannophilus Y2460,Pichia stipitis Y7124,Kluyveromyces marxianus Y2415 andCandida shehatae Y12878 was investigated in aerobic, anaerobic and microaerophilic batch cultures. The aeration rate greatly influenced the fermentations; growth, rate of ethanol production and oxidation of ethanol are affected. Of the strains tested,Pichia stipitis appears superior; under anaerobic conditions it converts D-xylose (20 g/l) to ethanol with a yield of 0.40 g/l and it exhibits the highest ethanol specific productivity (3.5 g of ethanol per g dry cell per day) under microaerophilic conditions.