A re-assessment of bacterial growth efficiency: the heat production and membrane potential of Streptococcus bovis in batch and continuous culture

Glucose-limited, continuous cultures (dilution rate 0.1 h^-1) of Streptococcus bovis JB1 fermented glucose at a rate of 3.9 mol mg protein^-1 h^-1 and produced acctate, formate and ethanol. Based on a maximum ATP yield of 32 cells/mol ATP (Stouthamer 1973) and 3 ATP/glucose, the theoretical glucose consumption for growth would have been 2.1 mol mg protein^-1 h^-1. Because the maintenance energy requirement was 1.7 mol/mg protein/h (Russell and Baldwin 1979), virtually all of the glucose consumption could be explained by growth and maintenance and the Y_ATP was 30. Glucose-limited, continuous cultures produced heat at a rate of 0.29 mW/mg protein, and this value was similar to the enthalpy change of the fermentation (0.32 mW/mg protein). Batch cultures (specific growth rate 2.0 h^-1) fermented glucose at a rate of 81 mol mg protein^-1 h^-1, and produced only lactate. The heat production was in close agreement with the theoretical enthalpy change (1.72 versus 1.70 mW/mg protein), but only 80% of the glucose consumption could be accounted by growth and maintenance. The Y_ATP of the batch cultures was 25. Nitrogen-limited, glucose-excess, non-growing cultures fermented glucose at a rate of 6.9 mol mg protein^-1 h^-1, and virtually all of the enthalpy for this homolactic fermentation could be accounted as heat (0.17 mW/mg protein). The nitrogenlimited cultures had a membrane potential of 150 mV, and nearly all of the heat production could be explained by a futile cycle of protons through the cell membrane (watts = amperes x voltage where H⁺/ATP was 3). The membrane voltage of the nitrogen-limited cells was higher than the glucose-limited continuous cultures (150 versus 80 mV), and this difference in voltage explained why nitrogen-limited cultures consumed glucose faster than the maintenance rate. Batch cultures had a membrane potential of 100 mV, and this voltage could not account for increased glucose consumption (more than growth plus maintenance). It appears that another mechanism causes the increased heat production and lower growth efficiency of batch cultures.     

Plasmid instability in an industrial strain ofBacillus subtilis grown in chemostat culture

Summary A pUB110-derived plasmid/Bacillus subtilis host combination was segregationally unstable when grown in chemostat culture with complex or minimal medium and under starch, glucose or magnesium limitation. The kinetics of plasmid loss were described in terms of the difference in growth rates between plasmid-containing and plasmid-free cells (d) and the rate at which plasmid-free cells were generated from plasmid-containing cells (R). Loss of plasmid-containing cells from the population was d dominated. Changes in medium composition and the nature of growth limitation caused variations in both d and R. The plasmid was most stable in glucose-limited chemostat cultures with minimal medium and least stable under starch limitation with complex complex medium. R and d were smaller for cultures in complex media than those in minimal media. Limitation by starch induced expression of the plasmid-encoded HT amylase gene and was associated with increased values of R and d. Magnesium limitation in minimal medium caused a significant increase in d and a decrease in R.Abbreviations Cm chloramphenicol - Kan kanamycin - Cm^r cells resistant to chloramphenicol (5 mg L^–1) - Kan^r cells resistant to kanamycin (5 mg L^–1) - Cm^sKan^s cells sensitive to chloramphenicol and kanamycin     

Development of an L6 myoblast in vitro model of moniliformin toxicosis

L6 myoblasts were used as an in vitro model to investigate the role of moniliformin and its interaction with monensin in turkey knockdown syndrome and sudden death syndromes in poultry. Cell viability and microscopic and ultrastructural alterations noted in L6 myoblasts cultured in the presence of moniliformin (0.0–0.3 g/l) were compared to those observed in parallel cultures also containing one of the following compounds: selenium (0–0.004 ng/l), thiamine (0–0.3 g/l), or pyruvate (0–0.46 g/l). Marked dilation of the RER, membranous whorls, glycogen deposition, membrane-bound cytoplasmic inclusions and necrosis were observed in myoblasts exposed to 0.03/2-0.30 g moniliformin/l medium. Supplementation of medium with thiamine and pyruvate, or selenium, provided significant protection to cells exposed to 0.0–0.3 g/l or 0.0–0.15 g moniliformin/l, respectively. Dose-dependent differences in protein and ATP production were not detected. Myoblasts grown in medium containing 0–0.15 g moniliformin/l and 7.5–50.0 M A23187, beauvericin or monensin had degrees of cytotoxicity similar to parallel cultures receiving only an ionophore. L6 myoblasts were a useful model of moniliformin toxicosis. The findings of this study suggest cytotoxicity due to moniliformin in L6 myoblasts may be due in part to oxidative damage and altered pyruvate metabolism, and that moniliformin does not predispose myoblasts to ionophore toxicosis. This study supports the results of in vivo investigations in poultry that moniliformin and monensin do not act synergistically to induce knockdown or monensin toxicosis.     

A novel technique for the study of bacterial cell mechanical properties

A micromanipulation method is described for measuring the bursting forces of bacteria and relating them to cell size. At a compression speed of 6.2 m s^–1, bursting forces of three samples of rapidly growing Staphylococcus epidermis from a batch culture varied from 3 to 34 N with an average value of 13.8 N (standard error 0.8 N). Escherichia coli grown in continuous culture at a specific growth rate of 0.5 h^–1 had bursting forces varying from 1 to 9 N with an average value of 3.6 N (standard error 0.4 N). In squeeze-hold experiments, force relaxation was observed, which was attributed to water loss from the cells, or viscoelasticity, or both. At high compression speed, such as 6.2 m s^–1, this relaxation could be neglected. Micromanipulation strength measurements might be used in studies of cell mechanical disruption and of the dependence of cell strength on cell physiology.     

Effects of growth environment on recombinant plasmid stability in Saccharomyces cerevisiae grown in continuous culture

A recombinant strain of Saccharomyces cerevisiae, containing a 2-m-fragment-based plasmid (pYEa4) was grown under non-selective conditions in continuous culture. The decrease in the population carrying the plasmid-encoded auxotrophic marker, LEU2, was examined under different physiological conditions. The difference in growth rate (µ) between plasmid-free and plasmid-containing cells and the rate of plasmid segregation (R) were determined using a non-linear regression technique. Loss rates were greater in defined glucose-limited cultures than in complex glucose-limited cultures. Plasmid loss was µ-dominated in cultures grown on defined media whereas µ and R were co-dominant in cultures grown on complex medium. Loss rates increased with increasing dilution rate in complex glucose-limited cultures. The reverse was found in defined glucose-limited cultures. Plasmid retention and loss kinetics determined from defined magnesium-limited cultures were not significantly different from those observed in defined glucose-limited cultures. Although plasmid retention in defined phosphate-limited culture was not significantly different from that in defined glucose-limited culture, reduced R and increased µ indicated an alternative physiological effect of phosphate limitation on plasmid stability.     

Somatic embryogenesis and plant regeneration in wild cotton (Gossypium klotzschianum)

A simple and efficient method for high frequency somatic embryogenesis and plant regeneration from hypocotyl-derived cultures and suspension cultures of Gossypium klotzschianum Anderss, a wild, diploid species of cotton is described here. Embryogenic cultures were induced from hypocotyl sections on MSB medium with 0.9 M 2,4-D and 2.32 M kinetin. MSB medium containing 0.045 M 2,4-D, 0.93 M kinetin, 2.46 M IBA promoted embryogenic culture proliferation and embryo development. Suspension cultures with 0.23 M 2,4-D and 0.93 M kinetin also produced many embryos. Somatic embryos cultured on MSB medium with PGRs produced secondary embryos, and embryos developed into normal plantlets on PGR-free MSB medium. Regenerated plantlets were transferred onto the quarter-strength MSB medium with 0.5% active charcoal to avoid recallusing. Hypocotyls were better than cotyledons for culture induction and plant regeneration. 2,4-D and kinetin were essential for culture induction and maintenance.     

Effects of retinoids on porcine thyrocytes under different culture conditions

The purpose of the paper was to study the morphological effects of retinoids on non-transformed cells such as thyrocytes. The formation of follicles was studied in primary cultures of porcine thyrocytes by adding retinol and thyroid stimulating hormone (TSH) to cells grown in the absence of TSH to form monolayers. The proliferation and apoptosis of thyrocytes were studied in cells both grown adherent to plastic surfaces and in suspension. Standard medium with traces of retinol and the same medium without retinol were used. Retinol alone was added to thyrocytes grown in the absence of TSH (TSH culture) or both retinol and TSH were added to cultures after stimulation with TSH (TSH culture). The concentration was varied from 0 to 80M for retinol and from 0 to 13M for retinoic acid. At a concentration of 13M, the effect of retinol was similar to that of retinoic acid. At concentrations higher than 40M, retinol reduced the formation of thyroglobulin-immunoreactive follicles, whereas up to 13M retinoic acid had no obvious influence on follicle formation. The retinoids induced apoptosis under all experimental conditions. In contrast, a significant decrease in proliferation and in the formation of thyroglobulin-immunoreactive follicles was observed only in adherent cells cultured in customary medium. The decrease in functional follicles after treatment with retinol suggests a de-differentiating effect of retinoids on normal thyrocytes and is in contrast with the differentiating effect of retinoids observed in cancer cells.     

Somatic embryogenesis in callus cultures of Rosa hybrida L. cv. Landora

Callus was initiated from immature leaf and stem segments of rose (Rosa hybrida cv. Landora) and subcultured every four weeks on a basal medium of half-strength Murashige & Skoog (1962) salts plus 30 g l^-1 sucrose (1/2 MS) and supplemented with 2.2 M BA, 5.4 M NAA and 2.2–9.0 M 2,4-D. Embryogenic callus and subsequently somatic embryos were obtained from 8-week-old callus culture on 1/2 MS+2.2 M BA+0.05 M NAA+0.3 M GA₃+200–800 mg l^-1 L-proline. Long-term cultures were established and maintained for up to 16 months by repeated subculture of embryogenic callus on L-proline deficient medium. About 12% of cotyledonary stage embryos taken from cultures cold-stored at 8±1°C for 4 days germinated on 1/2 MS+2.2 M BA+0.3 M GA₃+24.7 M adenine sulphate.Abbreviations BA benzyladenine - NAA -naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of the medicinal woody plant <Emphasis Type="Italic">Phellodendron amurense</Emphasis> Rupr. through excised leaves

Shoot organogenesis and plant establishment has been achieved for Phellodendron amurense Rupr. from excised leaf explants. Young leaf explants were collected from in vitro established shoot cultures and used for the induction of direct shoot regeneration, callus and subsequent differentiation into shoots on MS medium. Direct shoot regeneration was achieved by culturing 1 cm² sections of about 10-day-old leaves on MS medium enriched with 4.4 M BAP and 1.0 M NAA after 4 weeks of culture. The leaf explants produced callus from their cut margins within 3 weeks of incubation on medium supplemented with 2.0 M TDZ and 4.0 M 2,4-D or 4.0 M NAA. The maximum number of adventitious shoots was regenerated from the leaf-derived callus within 4 weeks of culture on MS medium containing 1.5 M BAP and 1.0 M NAA. The highest rate of shoot multiplication was achieved at the third subculture, and more than 65 shoots were produced per callus clump. For rooting, the in vitro proliferated and elongated shoots were excised into 2–4 cm long microcuttings, which were planted individually on a root-induction MS medium containing 2.0 M IBA. Within 3 weeks of transfer to the rooting medium, all the cultured microcuttings produced 2–6 roots. The in vitro regenerated plantlets were transferred to Kanuma soil, and the survival rate ex vitro was 90%.     

Endogenous phosphorylation of rat brain synaptosomal plasma membranes in vitro: Some methodological aspects

The time course of endogenous phosphorylation in vitro of total or separted synaptic plasma membrane proteins (SPM) has been correlated with that of hydrolysis of the phosphate donor (ATP) in the incubation medium. The ATP/SPM ratio in the medium was varied. In a low-ratio medium (7.5 M ATP; 2.2 g SPM/l) a complete hydrolysis of ATP occurred almost instantaneously as was measured by the release of free phosphate in and the disappearance of ATP from the medium. As a consequence, only a very short peak of phosphorylation, followed by dephosphorylation was observed. However, when higher ATP/SPM ratios were used (200 M ATP; 0.4 g SPM/l and 500 M ATP; 0.4 g SPM/l), the incorporation of phosphate into SPM proteins was linear for 20 sec, and the maximum level of phosphate incorporation was increased. Similar results were obtained after separation of³²P-labeled phosphoproteins by slab gel electrophoresis. However, analysis of the autoradiographs obtained fromone SPM preparation under different ATP/SPM ratios revealed dependence of phosphorylation of individual protein bands on the conditions used.     

ATPase-dependent energy spilling by the ruminal bacterium,Streptococcus bovis

When the ruminal bacterium Streptococcus bovis was grown in batch culture with glucose as the energy source, the doubling time was approximately 21 min and the rate of bacterial heat production was proportional to the optical density (1.72 W/g protein). If exponentially growing cultures were treated with chloramphenicol, there was a decline in heat production, but the rate was greater than 0.30 W/g protein even after growth ceased. Since there was no heat production after glucose depletion, this growth-independent energy dissipation (spilling) was not simply due to endogenous metabolism. Stationary cells which were washed and incubated in nitrogen-free medium containing an excess of glucose produced heat at a rate of 0.17 W/g protein. Monensin and tetrachlorosalicylanilide (TCS), compounds which facilitate an influx of protons, caused a more than 2-fold increase in heat production. Dicyclohexylcarbodiimide (DCCD) virtually eliminated growth-independent heat production regardless of the mode of growth inhibition. Because DCCD had little effect on the glucose phosphotransferase system, it appeared that the combined action of proton influx and the membrane bound F₁F₀ proton ATPase was responsible for energy spilling.Abbreviations DCCD dicyclohexylcarbodiimide - TCS tetrachlorosalicylanilide     

Micropropagation of flowering dogwood (Cornus florida) from seedlings

A method for regenerating whole plants from nodal (axillary bud) cultures of seedlings was developed for flowering dogwood (Cornus florida L.). The seed source significantly influenced the rate of proliferation, although cultures initiated from each of the seven mother trees produced some shoots. Woody plant medium (WPM) was superior to either Murashige and Skoog or Schenk and Hildebrandt basal medium. 6-Benzyladenine (BA) at 2.2 or 4.4 m stimulated the generation of significantly more useable shoots (1 cm) compared to all other concentrations (0.5–22.5 m tested. Thidiazuron (TDZ) at 0.6 and 1.1 m supported proliferation, but strongly inhibited shoot elongation. TDZ initiated cultures transferred to medium containing 4.4 m BA produced usable shoots after five additional subcultures. Shoots generated adventitious roots when exposed to either a 12-h pulse of relatively high concentrations (246–1230 m or continuous lower concentrations (0.5–49.0 m of indolebutyric acid (IBA) for longer periods. Microshoots produced the significantly greatest number of roots when subjected to 4.9 m IBA in WPM over a 4-week period. Whole plants were acclimatized to the laboratory conditions and subsequently to the greenhouse. The methodology described here should be useful in a breeding program by supplying multiple copies of unique, recombinant genotypes.     

The significance of hydrogenase activity for the energy metabolism of green algae: anaerobiosis favours ATP synthesis in cells of Chlorella with active hydrogenase

In cells of the green alga Chlorella fusca, which contain active hydrogenase(s), the concentration of ATP, NADH and NADPH were measured during a 5 h period of anaerobiosis in the dark and upon subsequent illumination with high light intensities (770 W/m²), conditions which favour optimal hydrogen photoproduction.ATP concentrations were also determined in cells of Chlorella fusca, whose hydrogenase was inactivated prior to illumination, and in cells of Chlorella vulgaris which do not contain hydrogenase. In the dark, the ATP concentration increased slightly during anaerobiosis in cells with active hydrogenase. This increase in ATP concentration was accompanied by an increase of NADH and a decrease of NADPH content.Upon illumination, the ATP content increased in cells with an active hydrogenase, whereas the NADH content decreased. The rate of phosphorylation was twice that observed in cells without active hydrogenase.This ATP synthesis in the light was not inhibited by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) (10 mol/l) nor by carbonylcyanide-3-chlorophenyl-hydrazone (CCCP) (1 mol/l) but was diminished by 500 mol/l dibromothymoquinone (DBMIB) and 6 mol/l carbonylcyanide-3-chlorophenyl-hydrazone (CCCP).It was concluded that an active hydrogenase can support ATP production under anaerobic conditions in the dark as well as in the light. NADH might serve in vivo as electron donor for a fermentative production of hydrogen in the light.Possible mechanisms underlying ATP production under anaerobiosis and hydrogen productive conditions are discussed.Abbreviations CCCP Carbonylcyanide-3-chlorophenyl-hydrazone - DBMIB dibromothymoquinone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - FCCP carbonylcyanide-p-trifluormethoxyphenyl-hydrazone - HEPES N-2-hydroxyethylpiperazin-N-2-ethan-sulfonic acid - PSI II, photosystem I, II respectively - PQ plastoquinone     

Muscle ATP synthesis and utilisation,balanced during flow-induced increase of respiration

To investigate the control of cell energetic metabolism, creatine charge, ATP/ADP ratio and oxygen consumption (as indicators of an energetic status, the balance between ATP synthesis and degradation and the aerobic ATP turnover, respectively) were evaluated in the rat gracilis muscle, perfused-superfused in vitro. During the perfusion rate of 70 l/min the ATP/ADP ratio, as well as the creatine charge are kept at the in vivo level. With the decrease of the rate toward 54 l/min (of an abundant oxygen delivery), the values of both parameters are lower than levels in vivo. With the increase of the rate up to 100 l/min, both parameters are kept at the in vivo level, when respiration increases by 125%. The data demonstrate the 'unmatched' control of ATP utilisation and synthesis steady rates during the low perfusion rate; during the increasing steady ATP turnover following the increased perfusion rate, the two fluxes are strikingly 'matched', i.e. precisely balanced.     

Enhanced crocetin glucosylation by means of maltosyl-β-cyclodextrin encapsulation

Summary The water-soluble solvent dimethylsulfoxide proved to be inhibitory to the enzymatic glucosylation of crocetin catalyzed by cell-free extracts of saffron (Crocus sativus L.) callus cultures. This problem was circumvented by encapsulating crocetin into maltosyl--cyclodextrin at a 1:3 and a 1:6 ratio which made it possible to carry out the reaction with up to 1,750 and 2,500 M crocetin respectively.     

Alloxan: A growth accelerator for a nitrogen-fixing blue-green alga

Effect of Alloxan was studied on a nitrogen-fixing blue-green alga: Westiellopsis prolifica in pure cultures. Concentrations of Alloxan, 10 g to 50 g/ml stimulate the growth of the alga and increase the chlorophyll, carotin and phycocyanin content of the cultures.     

A manganese requirement for patulin biosynthesis by cultures of Penicillium urticae

Antibiotic production by submerged cultures of Penicillium urticae required manganese supplementation of the media. Thus, manganese supplementation (152 M) allowed accumulation of patulin to high concentrations (2 mol/mL), whereas manganese deficiency (1.53 M) resulted in the accumulation to similar levels of the first committed pathway intermediate, methyl-salicylic acid, without significant patulin accumulation. Preliminary studies suggest that a similar manganese effect may occur in other fungal species.     

Auxin activity of phenylacetic acid in tissue culture

The ability of phenylacetic acid (PAA), a naturally occurring auxin, to initiate and support growth of callus and suspension cultures of several species is reported. Callus tissue of tobacco (Nicotiana tabacum L. var. WI-38), initiated and maintained on a medium with 2,4-dichlorophenoxyacetic acid (2,4-D), was transferred to and maintained on media supplemented with 25–500 M PAA as the only plant growth regulator (PGR). Optimal concentrations of PAA were determined for tobacco callus proliferation in the dark (250 M PAA) and with a 16-h light/8-h dark photoperiod (500 M PAA). Tobacco suspension cultures were maintained for over 28 transfers in media containing 20–40 M PAA as the sole PGR. When tobacco callus tissue maintained on PAA-supplemented media for over 18 months was transferred to liquid media containing kinetin, plantlets were regenerated. Callus of sunflower (Helianthus annuus L. var. Russian Mammoth) proliferated on media containing PAA at 5–250 M as the sole PGR. Similar PAA concentrations inhibited normal development and promoted callus formation in tobacco and pea (Pisum sativum L. vars. common, Frogel, and Frimas) epicotyl tissue. PAA as the sole PGR did not support the growth of soybean (Glycine max (L.) Merrill var. Fiskeby) callus or suspension cultures. Chickpea (Cicer arietinum L. var. UC-5) and lentil (Lens culinaris Medic. var. Laird) callus cultures proliferated on media containing 25–500 M PAA, but habituation of the cultures was common. PAA was not toxic to tobacco, chickpea, and lentil tissues at levels as high as 500 M.Paper No. 88514 of the Journal Series of the Idaho Agricultural Experiment Station, Moscow, Idaho, USA.     

High frequency somatic embryogenesis and plant regeneration in petiole and leaf explant cultures and petiole-derived embryogenic cell suspension cultures of Hylomecon vernalis

Culture conditions are described for high frequency somatic embryogenesis and plant regeneration in petiole and leaf explant cultures and petiole-derived embryogenic cell suspension cultures of Hylomecon vernalis Max. Petiole explants formed embryogenic calluses at a frequency of 53% when cultured on B5 medium supplemented with 13.6 M 2,4-dichlorophenoxyacetic acid (2,4-D) alone. Leaf explants formed embryogenic calluses at a frequency of 21% when cultured at a combination of 4.52 M 2,4-D and 2.22 M 6-benzyladenine. Cell suspension cultures were established with petiole-derived embryogenic calluses using liquid B5 medium with 4.52 M 2,4-D. Upon plating onto B5 basal medium, cell suspension cultures produced numerous somatic embryos, which then developed into plantlets. Regenerated plantlets were transplanted to potting soil and grown to maturity in a greenhouse.     

Possible modulation of phosphorylation of acetylcholine receptor-enriched membrane preparations

During phosphorylation of acetylcholine receptor (AChR)-enriched membrane preparations fromTorpedo fuscomaculata, phosphate is incorporated into a single protein, with a molecular weight corresponding to that of one of the receptor subunits (37,000 daltons). This protein also seems to contain the receptor binding site. ATP binds to four protein species, one of which corresponds to a different subunit of the receptor (molecular weight 45,000). Phosphorylation of these membrane preparations is affected by several factors, known to be involved in postsynaptic events. Ca²⁺ (10 M) inhibits the reaction, whereas cGMP (20 M), causes stimulation. Furthermore it has been shown that the agonists, acetylcholine, and carbamylcholine (10 M and 1 M) stimulate the phosphorylation reaction, while the antagonists, tubocurarine, hexamethonium, and decamethonium (1 M), cause inhibition.