Prozeßsteuerung des O2-Partialdruckes der Kulturlösung bei aeroben mikrobiellen Fermentationen

Following the introduction referring to the fundamental role of the oxygen supply and the meaning of measured values of diluted oxygen in liquid culture media commonly used strategies to avoid the oxygen limitation in aerated fermentations are summarized and validated with respect to their realization requirements. Furthermore, a new developed principle for the control of the p O₂-value based on the growth regulating influence of the acidity (pH-value) without using the increase of the oxygen transport rate of the fermenter is discussed.     

A method for estimating oxygen availability of stationary plant cell cultures in liquid media

A method for estimating the oxygen availability in plant cell cultures grown in stationary liquid media (e.g. many protoplast cultures) was developed. The method is based on short-term measurements of respiration rate versus oxygen concentration on a sample of cells, suspended in liquid media. From such data it is possible to estimate the oxygen concentration at the bottom of a stagnant liquid culture, by calculating the amount of oxygen reaching the cells by diffusion. As an example, rape (Brassica napus L. cv. Omega) hypocotyl protoplasts were grown with different oxygen concentrations at the site of the cells, obtained by varying the cell density, the height of the liquid layer and the oxygen content of the gas phase. The number of surviving calli was positively correlated with the estimated oxygen availability in the range between 60 and 350 M O₂, below 60 M all cells died. This indicates that oxygen availability can be a limiting factor in the range usually encountered in protoplast cultures, and that the method can be useful when designing optimal growth conditions for stationary cultures of plant cells.Abbreviations C₁ bulk oxygen concentration in agitated medium - C_o oxygen concentration in medium at the gas-liquid interface, in equilibrium with the gas - C_x oxygen concentration at cell level - D diffusion constant of oxygen in water - K_La oxygen transfer rate - l height of liquid above cells - n number of cells per ml - R_x respiration rate per cell     

Application of bioreactor design principles to plant micropropagation

Principles of oxygen consumption, oxygen transport, suspension, and mixing are discussed in the context of propagating aggregates of plant tissue in liquid suspension bioreactors. Although micropropagated plants have a relatively low biological oxygen demand (BOD), the relatively large tissue size and localization of BOD in meristematic regions will typically result in oxygen mass transfer limitations in liquid culture. In contrast to the typical focus of bioreactor design on gas–liquid mass transfer, it is shown that media-solid mass transfer limitations limit oxygen available for aerobic plant tissue respiration. Approaches to improve oxygen availability through gas supplementation and bioreactor pressurization are discussed. The influence of media components on oxygen availability are also quantified for plant culture media. Experimental studies of polystyrene beads in suspension in a 30-l air-lift and stirred bioreactors are used to illustrate design principles for circulation and mixing. Potential limitations to the use of liquid suspension culture due to plant physiological requirements are acknowledged.     

Beneficial effects of enhanced aeration using perfluorodecalin in <Emphasis Type="Italic">Yarrowia lipolytica</Emphasis> cultures for lipase production

The inadequate supply of oxygen to biomass is a critical factor to the productivity of most aerobic submerged fermentations. This happens because oxygen is sparingly soluble in the aqueous media. The use of a second liquid phase of perfluorocarbon (PFC), an oxygen-carrying compound, in the culture medium can increase the availability of oxygen to the microorganisms. The effect of perfluorodecalin on Yarrowia lipolytica cultures was investigated in shake-flask cultures. It was found that the specific growth rate of Y. lipolytica, a strictly aerobic yeast, increases with increasing PFC concentration. Extracellular lipase production was increased with 20% (v/v) of PFC and agitation of 250 rev/min. It was shown that the PFC presence benefitted lipase production and not just its secretion to the extracellular medium.     

Oxygen tolerance of strictly aerobic hydrogen-oxidizing bacteria

Growth of various bacteria, especially aerobic hydrogen-oxidizing bacteria, in the presence of 2 to 100% (v/v) oxygen in the gas atmosphere was evaluated. The bacterial strains included Alcaligenes eutrophus, A. paradoxus, Aquaspirillum autotrophicum, Arthrobacter spec. strain 11X, Escherichia coli, Arthrobacter globiformis, Nocardia opaca, N. autotrophica, Paracoccus denitrificans, Pseudomonas facilis, P. putida, and Xanthobacter autotrophicus. Under heterotrophic conditions with fructose or gluconate as substrates neither colony formation on solid medium nor the growth rates in liquid media were drastically impaired by up to 100% oxygen. In contrast, autotrophic growth — with hydrogen, carbon dioxide and up to 80% oxygen in the gas atmosphere — was strongly depressed by high oxygen concentrations. However, only the growth rate, not the viability of the cells, was decreased. Growth retardation was accompanied by a decrease of hydrogenase activity.The work was supported by the Deutsche Forschungsgemeinschaft.     

Comparison of Liquid and Agar-Solidified Defined Media Regarding the Physiological Mechanism by which β-2-Thienylalanine Inhibits Growth of Escherichia,Shigella, and Salmonella Cultures

Growth comparisons were made, using Shigella, Escherichia, and Salmonella cultures, in liquid and agar-solidified defined media containing β-2-thienylalanine (β-2-t). The comparisons were performed to determine the nature of growth inhibition by β-2-t under different physical growth conditions. In a plate assay, with increasing β-2-t mixed into the agar, inhibition of Escherichia and Shigella increased. However, Salmonella cultures were not inhibited even at the highest β-2-t concentrations used. With β-2-t added to liquid cultures, however, dose-response growth relationships were exhibited by all three genera. The differences occurring in β-2-t inhibition between liquid and plate assay conditions were not due to composition of culture plates, time of challenge of cultures with β-2-t, availability of oxygen and associated differences in ratios of volume of media to available surface area, selection of mutants in the plate assay, or to extractable substances from the agar. However, when β-2-t diffusion into the liquid medium was delayed by using agar plug diffusion cultures, a physiological mechanism was demonstrable which largely protected Salmonella cultures, but not Escherichia and Shigella cultures, from growth inhibition.     

Dissolved oxygen content in microbiological nutrient media

The modification of a highly sensitive method for the determination of the concentration of dissolved oxygen in liquid culture media and in water is described. This modification permits the easy conversion of the relative readings of electrode membrane transducers for measuring the partial pressure of oxygen into the readings characterizing the absolute concentration of oxygen in the medium (mg/cu. dm). The content of dissolved oxygen in microbiological media and in water depends on the amount of dissolved mineral salts, amino acids and peptides (the products in incomplete proteolysis), as well as on temperature. The maximum level of oxygen saturation in liquid culture media at 37 degrees C is different for various types of media and constitutes their peculiar characteristic, determined in the process of aeration under experimental conditions.     

Manipulation of oxygen tensions for in vitro cell culture using a hypoxic workstation

It is increasingly clear that oxygen tension exerts potent effects on many biologic processes in a range well above that at which aerobic metabolism is compromised. Cell culture ex vivo is traditionally performed in unstirred liquid media at ambient oxygen concentrations in the laboratory, with no attention to the level of oxygen experienced by the cells. This is certainly not reflecting physiology, and oxygenation may be further altered during cell handling and extraction procedures. The hypoxia-inducible factor pathway illustrates the potential for oxygen tension to have dramatic effects in terms of post-translational modification of proteins, and to influence a broad range of cellular pathways including those involved in substrate transport, metabolic pathways, growth factor signaling and differentiation. While the standard laboratory approach may remain suitable for many biologic applications, there are other situations in which more attention to oxygenation will be appropriate. This review discusses a workstation that allows investigators to manipulate oxygenation.     

Evaluation of Epicoccum nigrum for growth, morphology and production of natural colorants in liquid media and on a solid rice medium

Four nonpathogenic and nontoxigenic Epicoccum nigrum strains were evaluated for their growth, morphology and pigment producing ability in three complex and one defined liquid media. Epicoccum nigrum IBT 41028 produced pigments in all the four media tested with a maximum pigment of 3.68 AU at 410 nm in M1 medium (unoptimized) containing 5 g/l yeast autolysate. The color hue of the crude pigment extracts ranged from 74 to 102 exhibiting dark orange to green-yellow color. Pelleted morphology was shown to have a positive influence on the pigment production by E. nigrum strain IBT 41028 in the liquid media, and the use of Bis-tris buffer was found to diminish or reduce the pellet formation. Since Monascus is a well known pigment producer on rice. Pigment producing ability of E. nigrum IBT 41028 was tested on rice and compared to liquid media with Monascus ruber IBT 7904 as control. Though, both genera preferred rice but E. nigrum produced 4.6 folds higher pigment in the liquid unoptimized fermentation medium compared to M. ruber. Solid phase extraction and subsequently HPLC-DAD analysis of the crude pigment extracts showed qualitative as well as quantitative variation in the pigment composition under solid and liquid cultivations.     

The Effects of Using Trehalose as a Carbon Source on the Proliferation of Phalaenopsis and Doritaenopsis Protocorm-Like-Bodies

In this communication, the effects of trehalose and culture system on protocorm-like body (PLB) growth were investigated. PLB derived from Phalaenopsis and Doritaenopsis cultivars, which were grown on solidified trehalose amended NP medium showed higher proliferation rate than on NP medium containing sucrose. For P. ‘Hwa Feng Red Jewel’ and Dtp. ‘Mount Beauty×Su’s Red Lip’, the proliferation rates on solidified trehalose media were almost two times higher than those on sucrose media after 8-week culture. However, Knudson C (KC) medium did not reveal the similar results between trehalose and sucrose. In liquid culture system, both trehalose amended NP and KC media brought about better results than sucrose containing media for PLB proliferation. For culture system test, solidified media showed higher proliferation rate than liquid media under the same medium composition. Roller bottles were more suitable than flask-shaking cultures in liquid systems for PLB proliferation.     

In vitro propagation of a semi-dwarfing cherry rootstock

A successful in vitro propagation system for the semi-dwarfing cherry rootstock Maxma-14 (Prunus avium L.) has been developed. Shoot tips and axillary buds were successfully established in vitro. Multiplication rate of about 6 was achieved over a 4-week period using Murashige and Skoog medium with 4.44 μM benzyladenine and 0.49 μM indole-3-butyric acid (IBA). Rooting occurred within 4 weeks on liquid and agar-gelled media containing 0.49 μM NAA or 0.49, 2.45 μM IBA. On liquid media, a maximum rooting efficiency of up to 100% was obtained. However, high concentrations of auxins delayed the time of root initiation for 3–5 days. Acclimatization was affected directly by rooting conditions. Survival was best when plantlets were transferred to pots after a short period of root emergence on rooting media. Multiplication medium was also important for successful acclimatization. Shoots transferred to rooting media from that with kinetin resulted in better acclimatization and survival than that derived from media with benzyladenine. Further, plantlets rooted on liquid media had better survival than that rooted on agar-gelled media. This revised version was published online in June 2006 with corrections to the Cover Date.     

Determination of oxygen profiles in agar-based gelled in vitro plant tissue culture media

Keeping account of the limited knowledge concerning the relevance of the oxygen status of the medium during in vitro culture, a technique was elaborated to systematically study the oxygen concentration in gelled media. In a first series of experiments, the Oxygen Diffusion Rate (ODR) technique was used to investigate the dissolved oxygen concentration as a function of time at different depths. The results obtained demonstrated that the oxygen concentration in agar media was reduced by 80% during the heating steps included in the preparation procedure. It took about one week to reach an oxygen concentration equal to 90% of the equilibrium value at a depth of 1 cm, irrespective of the brand of agar used. As the recovery of the oxygen concentration at various depths could be nicely modelled by Fick's law, it follows that this process is diffusion limited. In this respect, fluorescence recovery after photobleaching (FRAP) measurements revealed that the diffusion coefficient of oxygen in gelled media was only affected to a very small extent by the presence of up to 2% (w/v) agar. In a final experiment, explants of Ficus benjamina were cultured on a rooting medium. As the oxygen concentration in the gelled medium was not significantly affected by the presence of the biological material, it was concluded that the oxygen uptake by explants from gelled media is negligibly small and hence cannot be considered as being a growth-limiting factor during in vitro micropropagation. This revised version was published online in June 2006 with corrections to the Cover Date.     

Pleomorphism in Cellulomonas acidula

Pleomorphism of Cellulomonas acidula in liquid and on solid media is described. Growth in liquid medium is characterized initially by the formation of club-shaped rods and later by cocci. On solid media the organism formed irregular branched cells and large swollen cells.     

Study of the oxygen transfer in a disposable flexible bioreactor with surface aeration in vibrated medium

The oxygen mass transfer is a critical design parameter for most bioreactors. It can be described and analyzed by means of the volumetric mass transfer coefficient K _L a. This coefficient is affected by many factors such as geometrical and operational characteristics of the vessels, type, media composition, rheology and microorganism’s morphology and concentration. In this study, we aim to develop and characterize a new culture system based on the surface aeration of a flexible, single-used bioreactor fixed on a vibrating table. In this context, the K _L a was evaluated using a large domain of operating variables such as vibration frequency of the table, overpressure inside the pouch and viscosity of the liquid. A novel method for K _L a determination based on the equilibrium state between oxygen uptake rate and oxygen transfer rate of the system at given conditions was also developed using resting cells of baker’s fresh yeast with a measured oxygen uptake rate of 21 mg g⁻¹ h⁻¹ (at 30°C). The effect of the vibration frequency on the oxygen transfer performance was studied for frequencies ranging from 15 to 30 Hz, and a maximal K _L a of 80 h⁻¹ was recorded at 30 Hz. A rheological study of the medium added with carboxymethylcellulose at different concentrations and the effect of the liquid viscosity on K _L a were determined. Finally, the mixing time of the system was also measured using the pH method.     

On the interaction in culture between two pathogenic soil-inhabiting fungi

Summary Interaction betweenFusarium vasinfectum andMacrophomina phaseoli was studied on solid and in liquid media at varying cultural conditions, in an attempt to explain the reduction in virulence of each fungus when the two pathogens were mixed together in the soil. Metabolites produced by each fungus in liquid media were suppressive to the growth of the other. Such suppression was influenced by the pH factor. Saltation ofFusarium was favoured by the presence ofMacrophomina metabolites.Dedicated to ProfessorTibor Benedek on the occasion of his 70th birthday.     

Isolationin vitro ofStrongwellsea castrans [Fungi: Entomophthorales] a pathogen of adult cabbage root flies,Delia radicum [Dipt.: Anthomyiidae]

The entomogenous fungusStrongwellsea castrans was isolatedin vitro for the first time, by incubating conidia projected from infected cabbage root flies (Delia radicum) in a simple, semi-defined liquid medium comprising dextrose, yeast extract and lactalbumin hydrolysate buffered to pH 7. The fungus grew as long unitunicate hyphae. After transfer to a solid nutrient medium, multinucleate hyphal bodies were formed which developed a thick, laminated wall. Neither conidia nor resting spores developed in liquid or on solid media and the fungus survived successive sub-culturing only in liquid media. Using the API-ZYM system, tests on extracts on hyphae ofS. castrans were positive for 11 enzymes but there were no consistent differences in enzyme profiles betweenS. castrans and fungi of the related genusErynia.      

Carbonate and Phosphate Precipitation by Chromohalobacter marismortui

The ability of Chromohalobacter marismortui to precipitate carbonate and phosphate minerals has been demonstrated for the first time. Mineral precipitation in both solid and liquid media at different salts concentrations and different magnesium/calcium ratios occurred whereas crystal formation was not observed in the control. The precipitated minerals were studied by X-ray diffraction, scanning electron microscopy and EDX, and were different in liquid and solid media. In liquid media aragonite, struvite, vaterite and monohydrocalcite were precipitated forming crystals and bioliths. Bioliths accreted preferentially close to organic pellicles, whereas struvite preferentially grows in microenvironments free of such pellicles. Magnesian calcite, calcian-magnesian kutnahorite, “proto-dolomite” and huntite were formed in solid media. The Mg content of the magnesian calcite and of Ca-Mg kutnahorite also varied depending on the salt concentration of the culture media. This is the first report on bacterial precipitation of Ca-Mg kutnahorite and huntite in laboratory cultures. The results of this research show the active role played by C. marismortui in mineral precipitation, and allow us to compare them with those obtained previously using other taxonomic groups of moderately halophilic bacteria.     

Small-scale hypoxic cultures for monitoring the spatial reorganization of glycolytic enzymes in Saccharomyces cerevisiae

At normal oxygen concentration, glycolytic enzymes are scattered in the cytoplasm of Saccharomyces cerevisiae. Under hypoxia, however, most of these enzymes, including enolase, pyruvate kinase, and phosphoglycerate mutase, spatially reorganize to form cytoplasmic foci. We tested various small-scale hypoxic culture systems and showed that enolase foci formation occurs in all the systems tested, including in liquid and on solid media. Notably, a small-scale hypoxic culture in a bench-top multi-gas incubator enabled the regulation of oxygen concentration in the media and faster foci formation. Here, we demonstrate that the foci formation of enolase starts within few hours after changing the oxygen concentration to 1% in a small-scale cultivation system. The order of foci formation by each enzyme is tightly regulated, and of the three enzymes, enolase was the fastest to respond to hypoxia. We further tested the use of the small-scale cultivation method to screen reagents that can control the spatial reorganization of enzymes under hypoxia. An AMPK inhibitor, dorsomorphin, was found to delay formation of the foci in all three glycolytic enzymes tested. These methods and results provide efficient ways to investigate the spatial reorganization of proteins under hypoxia to form a multienzyme assembly, the META body, thereby contributing to understanding and utilizing natural systems to control cellular metabolism via the spatial reorganization of enzymes.     

The Effect of Seed Cryopreservation on the Development of Protocorms by the Hybrid Orchid Bratonia

The aim of this work was to study the influence of storage in liquid nitrogen on the viability of seeds of the hybrid orchid Bratonia and further development of its protocorms in vitro. Seeds were frozen in ampoules by direct immersion in liquid nitrogen and stored in the cryobank for a month. The germination rates of cryopreserved and control (nonfrozen) seeds did not differ and remained as high as 100%. The protocorms derived were cultured on the agar-solidified Murashige and Skoog nutrient medium (MS), half-strength MS and Knop media and also in Morel liquid medium. During the first 45 days of culturing, protocorms derived from cryopreserved seeds grew faster than control protocorms on the MS and half-strength MS media but, at longer culturing (496 days), the size of control protocorms was significantly larger. After 639 days of culturing, there was no difference in the amount of perished, budding, and newly formed protocorms obtained from cryopreserved and control seeds, except half-strength MS medium where the number of budding protocorms in the case of cryopreserved seeds was a little greater than in the control treatment. After seed cryopreservation, the frequency of budding and newly formed protocorms was greater on the agarized MS and in liquid Morel media. Cryopreservation had little effect on the subsequent growth of protocorms in vitro. The preferable nutrient media for culturing the protocorms have been suggested.     

Promotion of oxygen transfer in three-phase fluidized-bed bioreactors by floating bubble breakers

The objective of the present study was to investigate a method to enhance the volumetric rate of oxygen transfer in three-phase fluidized-bed bioreactors. The rates of oxygen transfer from air bubbles to viscous liquid media were promoted by floating bubble breakers in three-phase fluidized beds operated in the bubble coalescing regime. The liquid-phase volumetric oxygen transfer coefficient has been recovered by fitting the axial dispersion model to the resultant data, and its dependence on the experimental variables, such as the gas and liquid flow rates, particle size, concentration of bubble breakers, and liquid viscosity, has been examined. The results indicate that the liquid-phase volumetric oxygen transfer coefficient can be enhanced up to 20-25%. The coefficient exhibits a maximum with respect to the volume ratio of the floating bubble breakers to the fluidized solid particles; it increases with increases in the gas and liquid flow rates and size of fluidized particles, while it decreases with an increase in the liquid viscosity. An expression has been developed to correlate the liquid-phase volumetric oxygen transfer coefficient with the experimental variables.