Entrapment of Lavandula vera cells and production of pigments by entrapped cells

Finely suspended cells of Lavandula vera were obtained by cultivating the cells in the presence of 50 mM CaCl₂ and entrapped homogeneously in gels formed from natural polysaccharides, agar, alginate and κ-carrageenan. The gel-entrapped cells grew well inside the gel matrices, the growth being confirmed by the increases in oxygen uptake, cell number and chlorophyll content. Blue pigments were synthesized de novo in the presence of l-cysteine by the gel-entrapped cells as well as by the free counterparts. Calcium alginate gel-entrapped cells were employed for the repeated production of the pigments for over 7 months by alternating growth and production phases. Entrapment with adequate gels stabilized markedly the viability and the pigment productivity of the plant cells.     

Continuous production of l-serine by immobilized growing Corynebacterium glycinophilum cells

Summary Auxotrophic mutant cells of Corynebacterium glycinophilum with high l-serine production activity were immobilized by entrapment with various gel materials, such as synthetic prepolymers and natural polysaccharides. The entrapped cells were used for estimation of l-serine productivity in a medium supplemented with glycine as a precursor. Based on the above criteria, including cell growth in gels and cell leakage from gels, calcium alginate was the most suitable gel material. Continuous l-serine fermentation with calcium alginate-entrapped growing cells was successfully achieved in an air-bubbled reactor for at least 13 days.     

Effect of nutrition of Monascus sp. on formation of red pigments

Summary A higher producer of ascospores and pigments, Monascus strain TTWMB 6042, was used to study regulation of pigment production by nutrients. An initial medium containing 4% glucose, 0.3% NH₄NO₃ (75 mm nitrogen) and inorganic salts was used. We found that the formation of red pigments in this strain, measured by optical density at 500 nm (OD₅₀₀) was strongly stimulated by monosodium glutamate (MSG) as the sole nitrogen source. The choice of carbon source and an initial pH of pH 5.5 were also important. High concentrations of phosphate and MgSO₄ were inhibitory to pigment production. A new chemically defined medium was devised containing 5% maltose, 75 mm MSG, phosphate and MgSO₄ at lower concentrations plus other mineral salts, which yielded a tenfold increase in OD₅₀₀ and a reversal of the pigment location from predominantly cell-bound, including both intracellular and surface-bound pigments, to mainly extracellular. Offsprint requests to: A. L. Demain     

Enhancement of pigment productivity of immobilized cultured Lavandula vera cells by limitation of nitrogen sources

Cultured cells of Lavandula vera entrapped with a photosensitive synthetic resin prepolymer (PVA-SbQ) produced blue pigments in the presence of l-cysteine as an inducer. The type of nitrogen sources in the culture medium greatly influenced the production of pigments. In the absence of an ammonium type nitrogen source, the induction of pigment synthesis by l-cysteine was observed in successive batches of the incubation without intermittent activation of the cells in the absence of l-cysteine. The pigment productivity of the entrapped cells was remarkably enhanced in the improved production medium containing potassium nitrate as the sole nitrogen source.     

Production of l (+) lactic acid by Lactobacillus delbrueckii immobilized in functionalized alginate matrices

The role of functionalized alginate gels as immobilized matrices in production of l (+) lactic acid by Lactobacillus delbrueckii was studied. L. delbrueckii cells immobilized in functionalized alginate beads showed enhanced bead stability and selectivity towards production of optically pure l (+) lactic acid in higher yields (1.74Yp/s) compared to natural alginate. Palmitoylated alginate beads revealed 99% enantiomeric selectivity (ee) in production of l (+) lactic acid. Metabolite analysis during fermentation indicated low by-product (acetic acid, propionic acid and ethanol) formation on repeated batch fermentation with functionalized immobilized microbial cells. The scanning electron microscopic studies showed dense entrapped microbial cell biomass in modified immobilized beads compared to native alginate. Thus the methodology has great importance in large-scale production of optically pure lactic acid.     

Differences in pigmentation between life cycle stages in Scrippsiella lachrymosa (dinophyceae)

Various life cycle stages of cyst‐producing dinoflagellates often appear differently colored under the microscope; gametes appear paler while zygotes are darker in comparison to vegetative cells. To compare physiological and photochemical competency, the pigment composition of discrete life cycle stages was determined for the common resting cyst‐producing dinoflagellate Scrippsiella lachrymosa. Vegetative cells had the highest cellular pigment content (25.2 ± 0.5 pg · cell^?1), whereas gamete pigment content was 22% lower. The pigment content of zygotes was 82% lower than vegetative cells, even though they appeared darker under the microscope. Zygotes of S. lachrymosa contained significantly higher cellular concentrations of β‐carotene (0.65 ± 0.15 pg · cell^?1) than all other life stages. Photoprotective pigments and the de‐epoxidation ratio of xanthophylls‐cycle pigments in S. lachrymosa were significantly elevated in zygotes and cysts compared to other stages. This suggests a role for accessory pigments in combating intracellular oxidative stress during sexual reproduction or encystment. Resting cysts contained some pigments even though chloroplasts were not visible, suggesting that the brightly colored accumulation body contained photosynthetic pigments. The differences in pigmentation between life stages have implications for interpretation of pigment data from field samples when sampled during dinoflagellate blooms.     

Zur Frage der Membranochromie bei Sphagnen

Zusammenfassung Es ist gelungen, zwei bisher sehr schwer zugängliche Wandfarbstoffe aus S. mag. und S. rub. chromatographisch rein darzustellen. Auf Grund des papierchromatographischen Verhaltens, der Reaktionen auf Sprühreagentien und der Lage der Absorptionsmaxima ergibt sich, daß die Verbindungen nicht mit einem bekannten Anthocyan identifizierbar sind, so daß man besser zunächst bei den Wandfarbstoffen der Torfmoose mit der Bezeichnung Wandanthocyan sehr vorsichtig sein sollte. Die Verbindungen sind wahrscheinlich Aglyca. Ihre weitere Analyse ist im Gange.

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About the problem of membrane pigments in SphagnaII. Characterizing the chromatographically pure prepared Kardinalpigments

Summary There are many Sphagna which show a remarkable variation in colour within a vegetation period.The red colour is caused by wall pigments which were believed till now to be anthocyanins (Paul 1908; Herzfelder 1921; Goodman u. Paton 1954; Paton u. Goodman 1955; Rothe 1963). The pigmentation is due to metabolic disturbances and the conditions of reddening are already analyzed under definite conditions (Rudolph 1965).There are great difficulties in extraction of the pigments. We have described a method by which the pigments can be extracted from fresh sphagnun material (see also Rudolph 1963a). The pigments are separated by column chromatography and at first we have tried to characterize the violett-red Kardinalpigment of Sphagnum magellanicum (A₂ mag) and Sphagnum rubellum (A₂ rub) by Rfvalues, spray-reagents and the absorption spectra; therefore always chromatographically pure pigments are used.The pigments are different from known anthocyanins and seem to be aglyca.

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Mit 1 Textabbildung     

Studies on the role of carotenoid pigments in a chemoheterotrophic bacterium,corynebacterium poinsettiae

Summary The hypothesis that colored carotenoids can protect chemoheterotrophic microorganisms from damage by visible light has been investigated. Corynebacterium poinsettiae, a bacterium that forms the three carotenoid pigments lycoxanthin, cryptoxanthin and spirilloxanthin, was used as test organism. Non-pigmented cells, in which the normal carotenoids were largely replaced by the colorless C₄₀ polyene, phytoene, were obtained by two methods: isolation of a mutant with a block in carotenoid synthesis; and cultivation of the parent strain in the presence of diphenylamine, a specific chemical inhibitor of carotenoid synthesis.Comparative studies of the effects of visible light on dye-sensitized pigmented and non-pigmented cells showed that non-pigmented cells can be rapidly killed by exposures which are without effect on pigmented cells. Both physiological and genetic suppression of pigment synthesis produce photosensitivity. The non-pigmented mutant is killed by ultraviolet light at the same rate as the pigmented parent strain, indicating that the acquired photosensitivity of the former is specific for visible light.Herrn Prof. Dr. A. Rippel zum 70. Geburtstag gewidmet.     

Comparison of citric acid production byAspergillus niger immobilized in gels and cryogels of polyacrylamide

Aspergillus niger was immobilized in cryogels and in conventional gels of polyacrylamide. The growth of cells entrapped in two kinds of gels and the production of citric acid by the immobilized cells were investigated and compared. Cells immobilized in cryogels were more suitable for citric acid production.     

Specific substrates for isolation and differentiation of Azotobacter vinelandii

Summary Resorcinol, ethylene glycol and glutaric acid have been found to be specific substrates for the enrichment of Azotobacter vinelandii in the presence of other Azotobacter species. The three compounds may also be used for species differentiation in the genus Azotobacter. In contrast to other reports strains of A. chroococcum and A. beijerinckii have been isolated which are able to use L-rhamnose for growth.Conditions for the production of a yellow pigment and green fluorescence by A. vinelandii from non-aromatic substrates on agar-plates have been tested.The production of water soluble yellow pigments in benzoate containing media cannot be used as a criterium for the presence of A. vinelandii. The pigment seems to be -hydroxy-muconic semialdehyde, the splitting product resulting from metacleavage of catechol. It may be formed by all Azotobacter species that can metabolize aromatic substrates.     

Leucine interference in the production of water-soluble red Monascus pigments

The formation of soluble Monascus red pigments is strongly positively and negatively regulated by different amino acids. Leucine, valine, lysine, and methionine had strong negative effects on pigment formation. Leucine supported poor pigment formation when used as sole nitrogen source in fermentations, yet it neither repressed pigment synthase(s) nor inhibited its action. The new pigments derived from the hydrophobic leucine were more hydrophilic than the conventional red pigments (lacking an amino acid side-chain) and were extracellularly produced. Therefore, the low level of red pigments produced when leucine was the nitrogen source was not due to feed-back regulation by cell-bound leucine pigments. The negative effect of leucine was caused by enhanced decay of pigment synthase(s). The enhanced decay was not due simply to de novo synthesis of a leucine-induced protease.Abbreviations mSG Monosodium glutamate - MOPS 3-(N-morpholine)propane sulfonic acid - DCW dry cell weight     

Negative effect of ammonium nitrate as nitrogen source on the production of water-soluble red pigments by Monascus sp.

Ammonium salts, especially ammonium nitrate, have been used as nitrogen sources for production of traditional water-insoluble Monascus pigments. However, we noted that defined media employing NH₄NO₃ as the sole nitrogen source in fermentations supported only poor pigment production by Monascus sp., and the pigments produced were mainly cell-bound. NH₄NO₃ was found not to (a) repress pigment synthase formation, (b) enhance synthase decay, or (c) serve as a nitrogen source for pigment production by resting cells; it had a weak inhibitory effect on the action of pigment synthase(s). The high level of cell-bound did not exert a feedback effect on the further synthesis of pigments. These observations indicate that the reason why NH₄NO₃ supports only low pigment production during fermentations is the poor ability of NH₄NO₃ to donate nitrogen in the Schiff-base reaction converting orange pigments to red ones.     

Blood Cell Ultrastructure of the Ascidian Botryllus schlosseri L. II. Pigment Cells

Colonies of Botryllus schlosseri L., bred in the laboratory and genetically selected as regards the blue and/or reddish pigments, were used. The following phenotypes were investigated under the electron microscope: (a) blue colonies without reddish pigment; (b) reddish colonies without blue pigment; (c) colonies with both blue and reddish pigments; (d) colonies with neither blue nor reddish pigments. In the pigmented colonies, a specialized blood pigment cell type was recognized that, in giant membrane-limited vacuoles, contained a great number of granules. In general, the granules were similar in size, not individually limited by a membrane and were made up with electrondense material often arranged in concentric rings. Although there could be some variability within the same cell, in each phenotype the granules displayed a characteristic pattern so that the differences in colour of the granules, as seen in vivo, were paralleled by differences in the ultrastructural architecture. In the unpigmented colonies also, granulated vacuolar cells, rare in number but morphologically comparable to the pigment cells, were seen. On the basis of these results, the hypothesis of the existence of a prospective pigment cell and of a common origin for all the pigment cells of B. schlosseri is discussed.     

The morphology of the eyes of Limulus

Summary The Limulus ommatidium consists of 4 to 20 retinula cells surrounding the dendrite of the eccentric cell. Adjoining membranes are differentiated into the microvillous rhabdome in the central area of the ommatidium. Three types of pigment cells envelop the sensory cells. The distal pigment cells cover the periphery of the distal half of the ommatidium; proximal pigment cells (beneath the base of the ommatidium) and intraommatidial pigment cells provide glial wrapping for the sensory cells, the partitions between them, and the peripheral loose framework. Processes of the overlying cone cells penetrate into the ommatidium and lie at the edges of the rhabdomal fins. Numerous neurosecretory axons terminate at all levels of the ommatidium on pigment cells, conveyed there either by enveloping pigment cells or by separate neuroglial cells. Tight junctions in the ommatidium are confined to the contacts between rhabdomal miorovilli. The periphery of the rhabdome is surrounded by continuous adhering junctions except at the tip and exit of the eccentric cell dendrite. The discussion centers on possible correlations between known neurophysiological characteristics of ommatidial cells and significant morphological aspects of the ommatidium, such as distribution of supporting cells, extracellular space, and junctional specializations.This study constitutes publication No. 329 from the Oregon Regional Primate Research Center, supported by Grants FR00163 and NB07717-01 from the National Institutes of Health and by a Bob Hope Fight-for-Sight Grant-in-Aid of the National Council to Combat Blindness, Inc.The author wishes to thank Mrs. Audrey Griffin for patient and excellent technical assistance, Mr. Joel Ito for the execution of the drawing, and Dr. C. J. Russell for constructive criticism.     

Volatilization of Mercury by Immobilized Bacteria (Klebsiella pneumoniae) in Different Support by Using Fluidized Bed Bioreactor

Klebsiella pneumoniae, a mercury-resistant bacterial strain able to reduce ionic mercury to metallic mercury, was isolated from wastewater of Casablanca. This strain exhibits high minimal inhibition concentrations for heavy metals such as mercury 2400 μM, lead 8000 μM, silver 2400 μM, and cadmium 1000 μM. This bacterium was immobilized in alginate, polyacrylamide, vermiculite, and cooper beech and was used for removing mercury from a synthetic water polluted by mercury by using a fluidized bead bioreactor. Immobilized bacterial cells of Klebsiella pneumoniae could effectively volatilize mercury and detoxify mercury compounds. Moreover, the efficiency of mercury volatilization was much greater than with the native cells. The highest cleanup and volatilization rates were obtained when Klebsiella pneumoniae was entrapped in alginate beads, with a cleanup rate of 100% and a volatilization rate of 89%. Immobilized cells in alginate continuously volatilized mercury even after 10 days without loss of activity. Received: 21 February 2001 / Accepted: 13 March 2001     

Biosynthesis and cytoplasmic accumulation of a chlorinated catechol pigment during 3-chlorobenzoate aerobic co-metabolism in Pseudomonas fluorescens

A strain of Pseudomonas fluorescens was capable of co-metabolizing 3-chlorobenzoic acid with the production of a chlorinated catechol black pigment. A peroxidase and another enzymatic activity referred to as a polyphenol oxidase were found to be involved in the oxidation of 4-chlorocatechol to 4-chloro-1,2-benzoquinone, i.e. in the production of highly reactive substrates for pigment formation. Therefore, P. fluorescens cells were seen to take an active part not only in 3-chlorobenzoate mineralization but also in overall pigment production. pH was found to be a key parameter in the regulation of the activity of P. fluorescens oxidoreductive enzymes. Ultrastructural investigations showed that electron dense granules of pigment were distributed throughout the cytoplasm of Pseudomonas fluorescens cells grown in presence of 3-chlorobenzoate, as confirmed also by Thiéry cytochemical investigations.In these cells, an extensive contraction of the cytoplasm as well as a significant damage to the cell wall after two days of incubation, suggested that pigment production caused a premature death of the cells accompanied by the leakage of the cell content. Pigment production seemed to occur mostly in the cytoplasmic context where the electron dense material accumulates until it is released in the medium after the cell lysis.Abbreviations 3-CBA 3-chlorobenzoic acid - BA benzoic acid - 4-CC 4-chlorocatechol - 3-CC 3-chlorocatechol - MBTH 3-methyl-2-benzothiazolinone hydrazone - l-DOPA l-3,4-dihydroxyphenyl-alanine - SPB sodium phosphate buffer     

Stereoselective hydrolysis of dl-menthyl succinate by gel-entrapped Rhodotorula minuta var. texensis cells in organic solvent

Summary dl-Menthyl succinate was successfully hydrolyzed stereoselectively by Rhodotorula minuta var. texensis cells entrapped within photo-crosslinked or polyurethane resin gels in water-saturated n-heptane. The hydrolyzed product was found to be pure l-menthol. The catalytic activity of the immobilized cells, especially those entrapped in urethane polymers, was far more stable than that of the free cells. The half-life of the polyurethaneentrapped cells was estimated to be 55–63 days in the organic solvent.Dedicated to the 65th birthday od Professor Dr. G. Manecke     

Untersuchungen über die lichtabhängige Carotinoidsynthese

Summary In conidia-free submerged cultures of Neurospora crassa the various steps of light-dependend carotenoid synthesis were studied. The mycelium produces small amounts of pigments even in the dark. The data obtained are in part in good agreement with earlier results of Zalokar and show that the light-induced pigment production starts after a lag-period of 40 min and is finished after 6–8 hours; the photoreaction is saturated by relatively small dosages. In contrast to Zalokar's results we found that for photoinduction the reciprocity law holds true. The photoreaction is saturated by a certain amount of light independently of the light-intensity. Actidion (Cycloheximide) inhibits carotenoid synthesis completely when added before or up to 10 min after the onset of illumination, whereas addition 60 min after illumination already has no effect. Comparison with the results obtained with Fusarium shows that the reaction mechanism is very similar in both organisms, though the various steps seem to proceed faster in Neurospora.

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Herrn Prof. Dr. L. Brauner in Verehrung und Dankbarkeit zum 70. Geburtstag gewidmet.     

Hyperspectral imaging techniques for the characterization of Haematococcus pluvialis (Chlorophyceae)

A hyperspectral imaging camera was combined with a bright‐field microscope to investigate the intracellular distribution of pigments in cells of the green microalga Haematococcus pluvialis, a synonym for H. lacustris (Chlorophyceae). We applied multivariate curve resolution to the hyperspectral image data to estimate the pigment contents in culture and revealed that the predicted values were consistent with actual measurements obtained from extracted pigments. Because it was possible to estimate pigment contents in every pixel, the intracellular distribution of the pigments was investigated during various life‐cycle stages. Astaxanthin was localized specifically at the eyespot of zoospores in early culture stages. Then, it became widely distributed in cells, but subsequently localized differently than the chl. Integrated with our recently developed image‐processing program “HaematoCalMorph,” the hyperspectral imaging system was useful for monitoring intracellular distributions of pigments during culture as well as for studying cellular responses under various conditions.