Effects of Low-Temperature Acclimation and Oxygen Stress on Tocopherol Production in Euglena gracilis Z

[This corrects the article on p. 1406 in vol. 50.].     

Studies on uroporphyrinogen decarboxylase of etiolated Euglena gracilis Z

1. A 423-fold purified fraction of uroporphyrinogen decarboxylase (EC 4.1.1.37) showing a specific activity of 770 units/mg protein has been employed in order to study some properties in etiolated Euglena gracilis Z. 2. Uroporphyrinogen decarboxylase has a relative molecular mass of 54,000, an optimum pH of 7.2 and exhibits Michaelis-Menten kinetics, employing both uroporphyrinogen I and uroporphyrinogen III as substrates. 3. Anaerobic conditions seem not to be necessary for uroporphyrinogen decarboxylase activity. Neither EDTA nor cysteine affected enzyme activity, whereas dithiothreitol produced a remarkable activation of coproporphyrinogen formation. 4. Kinetic data employing both substrates showed an accumulation of porphyrinogen (i.e. hexa- and hepta-porphyrin) containing six or seven COOH groups, depending on the uroporphyrinogen concentration used. 5. An unusual elution profile of the intermediates on Sephacryl S-200 was found.     

Accumulation of Trehalose as a Compatible Solute under Osmotic Stress in Euglena gracilis Z

ABSTRACT. The photosynthetic protozoon Euglena gracilis, accumulated a large amount of trehalose in the cells under salt or osmotic stresses. Radioactivity of [14C] paramylon, a β-1,3-polyglucan which was stored in the cells of E. gracilis. was degraded rapidly and this radioactivity was almost stoichiometrically incorporated into trehalose. The interconversion of trehalose from paramylon by salt or osmotic stresses was dependent on the concentrations or osmotic pressures, suggesting that E. gracilis accumulate trehalose as an osmoprotectant. After the removal of salt or osmotic stresses, trehalose was gradually degraded, however, it was not converted into paramylon.     

Chemosensory Responses Toward Oxygen in Euglena gracilis*

SYNOPSIS Euglena gracilis strain Z, at a concentration of 10⁶ cells/ml and in containers of ∽ 0.1-mm thickness, spontaneously forms dynamic ring patterns in the dark. These patterns are modified differentially by illumination with red and with blue light. The red light effect is abolished by treatment with an inhibitor of photosynthesis. Pattern formation is apparently the result of chemophobic responses to oxygen dissolved in the medium. Euglena can respond to both negative and positive concentration gradients, depending upon the absolute magnitude of oxygen concentration. The photo- and chemosensory transduction systems of Euglena interact at a stage which precedes the overt expression of motor responses.     

Mono-ADP-Ribosylation of Arginine Residue of Euglena gracilis Z in Synchronous Culture

ABSTRACT. In Euglena gracilis Z, a considerably high activity of mono-ADP-ribosyltransferase occurred and change of it was accompanied by a cell cycle induced by a light-dark cycle. The enzyme activity was strongly inhibited by L-arginine and supported in the presence of poly-L-arginine as a substrate, indicating that ADP-ribosylated amino acid is an arginine residue. Arginine: mono-ADP-ribosyltransferase activity was found in the chloroplasts, mitochondria, microsomes and cytosol as judged from marker enzyme activities and the activity in each organelle fluctuated with the cell cycle.     

Purification and Some Properties of Extracellular Protease of Euglena gracilis Z

The extracellular protease of Euglena gracilis z was purified to a single protein. It was an endopeptidase as found by the Nunokawa’s method, and showed optimum pH for the proteinase, esterase and amidase activities at 7.3, 7.0 and 6.3, respectively. It had a molecular weight of 41,000 and isoelectric point of 8.3. The bleached mutant of E. gracilis produced higher activity of extracellular protease than the wild strain, and supplementation of peptone to the growth medium augmented the enzyme production in both green and bleached cells. The Euglena extracellular protease was markedly inhibited by diisopropylfluorophosphate and Streptomyces subtilicin inhibitor, and to lesser extents by EDTA and p-chloromercuribenzoate. The enzyme was potentiated by some sulfhydryl compounds, activated greatly by Fe²⁺ and stabilized by Ca²⁺ and K⁺.     

Subcellular Localization of the GABA-Shunt Enzymes in Euglena gracilis Strain Z

SYNOPSIS. Glutamate decarboxylase, γ-aminobutyrate-α-ketoglutarate aminotransferase and NAD-linked and NADP-linked succinic semialdehyde dehydrogenase, all constituting the GABA (γ-aminobutyrate)-shunt pathway of glutamate metabolism are localized in the mitochondrial matrix in a streptomycin-bleached mutant of Euglena gracilis strain Z. Glutamate dehydrogenase, requiring NADP as the cofactor, was distributed in the cytoplasm. An improved version of the controlled digestion method for preparing Euglena mitochondria, which involves use of trypsin and a trypsin inhibitor and removal of broken cells before mechanical disruption of cells, is also described.     

Detoxification effect of iron-encaging zeolite-processed water in tributyltin-intoxicated Euglena gracilis Z

In our previous paper, we reported the restoration promoting effects of mineral-encaging zeolite-processed water, especially of a Fe-encaging one, on tributyltin chloride (TBTCl)-intoxicated Euglena gracilis. This present study extends the investigation on the behavior of TBTCl and a xenobiotic enzyme, cytochrome P-450, in Euglena cells incubated with or without Fe-encaging zeolite-processed water (FeZW). Subcellular fractionation of TBTCl-intoxicated Euglena cells, atomic absorption spectrophotometry, and GC analyses showed that TBTCl was rapidly incorporated into the cells to halt cell motility. GC-MS showed that FeZW promoted conversion of TBTCl to dibutyltin (DBT) as the major metabolite in the microsomal fraction of the cells. An in vitro incubation system with heat-treated microsomes did not convert TBTCl to DBT. The contribution of cytochrome P-450 in the microsomal fraction was suggested by an immunochemical method. The results suggest that the improvement of detoxification by FeZW in the TBT-intoxicated Euglena cells should be due to activation of biotransformation system of the Euglena cells by FeZW.     

Effects of increased salinity on gravitaxis in Euglena gracilis

The unicellular freshwater flagellate Euglena gracilis regulates its position in the water column by means of phototactic and gravitactic behavior. Recent experiments have revealed that the cells switch between negative and positive gravitaxis depending upon environmental stimuli such as solar radiation. In this study, the effect of increased salinity on gravitaxis in Euglena gracilis was investigated. In some experiments it was found that salt concentrations up to 5 gL-1 (in some experiments 10 gL-1) increased the motility, velocity and precision of negative gravitactic orientation. Higher salt concentrations decreased all these parameters. At concentrations of about 15 gL-1, cells which did not become immobile, switched from negative to positive gravitaxis. Positive gravitaxis persisted for several hours or even days when the cells were transferred back to standard culture medium. Most of the cells in cultures exposed to salt concentrations above 20 gL-1 lost their motility (partial formation of palmella stages) but recovered when transferred back to standard medium or de-ionised water. Post recovery, the cells showed pronounced positive gravitaxis. Additional investigations on the pigmentation, revealed that the cells showed a complete loss of a carotenoid shoulder in the spectrum, which reappeared when the cells were brought back to standard medium.     

Regulation der Synthese von Plastidenproteinen in Euglena gracilis,Stamm Z

Summary The multiplication of chloroplasts in synchronized Euglena gracilis, strain Z, requires the existence of a regulating system which coordinates both the synthesis of plastid proteins coded in the plastom and the synthesis of plastid proteins coded in the genom. At 27°C this system can not be influenced by external factors, such as chloramphenicol and cycloheximide. At 35°C, however, the inhibition of the synthesis of plastom-coded proteins by chloramphenicol increases the synthesis of certain plastid proteins coded in the genom. The inhibitor cycloheximide acts vice versa. These results are in favour of the hypothesis that the synthesis of plastid proteins is coordinated by regulator proteins.

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Abkürzungen CAP Chloramphenicol - CHM Cycloheximid     

Light-induced reduction in specific activity of malate enzyme in Euglena gracilis Z

When dark grown Euglena are exposed to more than about 400 foot candles of white light, there is an exponential reduction in the specific activity of malate enzyme. The original activity is reduced by more than 90%. This reduction in malate enzyme is not inversely co-ordinate, in an Ames-Garry plot, which the production of chlorophyll.