Growth dynamics of Agrobacterium tumefaciens in chemostat cultures limited by carbon source and mineral nutrients.

Agrobacterium tumefaciens was grown in a chemostat in a chemically-defined medium which hs alpha-methyl D-glucoside, magnesium, manganese, phosphate or urea as the growth-limiting nutrient. Steady-state biomass concentrations were dependent on the specific growth rate of the organism when alpha-methyl D-glucoside, manganese or phosphate were growth-limiting nutrients. During magnesium-limited growth, large undamped oscillations in biomass concentration occurred. In all chemostat cultures a variant organism was selected which had lost the ability to grow in the medium supplied, bur survived on products of carbon metabolism derived from the wild-type.     

Conversion of disaccharides to 3-ketodisaccharides by nongrowing and immobilized cells ofAgrobacterium tumefaciens

High-performance liquid chromatography was used to estimate 3-ketolactose and 3-ketosucrose in cultures of agrobacteria. The activities of enzymes that convert the disaccharide substrate were evaluated during batch cultivation ofAgrobacterium tumefaciens on sucrose, maltose, and lactose. The highest activity of glucoside 3-dehydrogenase and a slight activity of disaccharide-hydrolyzing enzymes were found in cells grown on lactose. Nongrowing cells converted lactose to 3-ketolactose faster than immobilized cells did. Immobilization of cells into polysaccharide gels did not stabilize the activity of glucoside 3-dehydrogenase. Glutaraldehyde cross-linking of the cell content led to an inactivation of the respiratory chain but Fe³⁺ could be used as an electron acceptor. Cells treated with glutaraldehyde converted lactose faster than nongrowing ones but the activity of glucoside 3-dehydrogenase was not stable.     

Effect of glycine betaine on the sucrose catabolism of an l-lysine producing mutant of Brevibacterium lactofermentum

Summary Effect of exogenous betaine on the growth of an l-lysine-producing mutant of Brevibacterium lactofermentum was examined in a medium containing different carbon sources such as glucose, fructose, or sucrose. The growth rate decreased significantly with a rise in temperature when sucrose was the carbon source. Both the specific sucrose consumption rate and the invertase activity of the mutant decreased with the culture period when the cultivation temperature was 35°C. The addition of betaine restored both growth and invertase activity on medium containing sucrose as the carbon source at 35°C. Betaine protected the invertase activity against the inactivating effects of high temperature in vitro. Furthermore, the addition of exogenous invertase into production medium at 35°C restored the growth rate to that at 32°C. These results indicated that growth decreased on medium containing sucrose at 35°C due to a decrease in invertase activity, and that addition of betaine was an effective way to enhance growth on this medium at a higher temperature. Offprint requests to: Y. Kawahara     

Role of the carbon source in regulating chloramphenicol production by Streptomyces venezuelae: studies in batch and continuous cultures

Both carbon- and nitrogen-limited media that supported a biphasic pattern of growth and chloramphenicol biosynthesis were devised for batch cultures of Streptomyces venezuelae. Where onset of the idiophase was associated with nitrogen depletion, a sharp peak of arylamine synthetase activity coincided with the onset of antibiotic production. The specific activity of the enzyme was highest when the carbon source in the medium was also near depletion at the trophophase-idiophase boundary. In media providing a substantial excess of carbon source through the idiophase, the peak specific activity was reduced by 75%, although the timing of enzyme synthesis was unaltered. Moreover, chemostat cultures in which the growth rate was limited by the glucose concentration in the input medium failed to show a decrease in specific production of chloramphenicol as the steady-state intracellular glucose concentration was increased. The results suggest that a form of "carbon catabolite repression" regulates synthesis of chloramphenicol biosynthetic enzymes during a trophophase-idiophase transition induced by nitrogen starvation. However, this regulatory mechanism does not establish the timing of antibiotic biosynthesis and does not function during nitrogen-sufficient growth in the presence of excess glucose.     

Alpha-3-ketoglucosidase of Agrobacterium tumefaciens

A 3-ketosucrose-degrading enzyme was purified 80-fold from the sonic extracts of Agrobacterium tumefaciens IAM 1525 grown on a sucrose-containing medium. The enzyme catalyzes hydrolysis of alpha-3-ketoglucosides such as 3-ketosucrose, 3-ketotrehalose, 3-ketomaltose, and 3-ketoglucose-1-phosphate but not of beta-3-ketoglucosides, beta-3-ketogalactosides, and other glycosides such as sucrose, trehalose, maltose, glucose-1-phosphate, cellobiose, lactose, or raffinose. From the strict substrate specificity of this enzyme, the name alpha-d-3-ketoglucoside 3-ketoglucohydrolase (trivial name, alpha-3-ketoglucosidase) was proposed. K(m) values for 3-ketosucrose and 3-ketotrehalose were 3.9 x 10(-3)m and 4.8 x 10(-3)m, respectively. Optimum pH was 8.0 to 8.3. 3-Ketoglucose, a reaction product from alpha-3-ketoglucosides by the enzyme, behaved as a strong inhibitor. Physiological significance of this enzyme in the disaccharide metabolism of this bacterium was discussed.     

3-Ketoglycoside-mediated metabolism of sucrose in E. coli as conferred by genes from Agrobacterium tumefaciens

Escherichia coli strains that did not have the ability to use sucrose as a sole carbon source gained this ability after receiving a cloned fragment of DNA from Agrobacterium tumefaciens. No invertase was detected in the sucrose-metabolizing E. coli, but evidence for the activity of certain enzymes, known to be produced by biotype 1 strains of Agrobacterium, were found. Evidence was found for the presence of d-glucoside 3-dehydrogenase (G3DH) and α-3-ketoglucosidase. The activity of enzyme extracts on 3-ketosucrose also indicated that 3-ketoglucose reductase, or some enzyme that acts on 3-ketoglucose, was present in the Suc⁺ E. coli as well. The fragment was found to complement a G3DH mutant of A. tumefaciens and was also found to confer chemotaxis towards sucrose in E. coli. Received: 13 September 1996 / Received revision: 15 January 1997 / Accepted: 24 January 1997     

Cellular and environmental factors affecting the synthesis of polygalacturonate lyase byBacillus subtilis

Summary Cellular and environmental factors affecting the synthesis of polygalacturonate lyase in batch and chemostat cultures ofBacillus subtilis were investigated. The lyase was produced constitutively during growth on a wide range of carbon sources in a defined minimal medium and in medium containing complex organic carbon and nitrogen sources. The highest activity was obtained during batch growth in minimal medium containing glucose and ammonium sulphate. Over 99% of the activity was present extracellularly in the supernatant medium at all stages of the batch growth cycle. Two distinct differential rates of synthesis were observed during exponential growth. The lyase was unable to attack pectin rapidly unless pectin methyl-esterase was also present. Pectin was a poor substrate for growth and polygalacturonate lyase induction because the organism did not produce pectin methyl-esterase. In continuous-flow chemostat cultures with glucose medium, polygalacturonate lyase activity declined to a very low level owing to the selection of non-productive mutant strains. Loss of activity did not occur when polypectate was the carbon source. Steady-state specific polygalacturonate lyase activity in polypectate medium was relatively independent of dilution rate in the range 0.04 to 0.36/h. When polypectate was supplied in excess of the growth requirement lyase activity was 5 times higher than during polypectate-limited growth.     

葡萄糖3-脱氢酶产生菌的筛选和产酶培养

从土壤中筛选分离得到1株葡萄糖3-脱氢酶产生菌,经生理生化初步鉴定为产酸克雷伯菌(Klebsiella oxyto-ca)。将菌株D8进行产酶优化培养,经过单因素法确定优化培养条件:乳糖为C源,酵母膏为N源,250 mL摇瓶装液量为50 mL,培养基的初始pH为7,33℃培养时G3DH酶比活力最高,达到1.45 U。     

Continuous cultivation in a chemostat of the phototrophic procaryote,anacystis nidulans,under nitrogen-limiting conditions

Anacystis nidulans was grown photoautotrophically in a chemostat in the presence of light, air and CO2 as the sole carbon source. Either the amount of the nitrogen source in the medium or light intensity were used as growth-limiting parameters. 1. Cells of high glycogen content obtained by pre-incubation under nitrogen starvation conditions maintained their glycogen content during continuous cultivation. Both growth rate and the amount of cell-mass and of glycogen depended on the nitrate content of the medium and the light intensity. The values for the growth rate, the maximal rates of glycogen synthesis and of cell mass formation were 0.1 h-1, 6 mg/l.h and 17 mg/l.h, respectively. 2. Cells without glycogen which had been transferred from an exponentially growing batch culture to chemostat conditions showed increasing rates of growth and of cell mass formation when the light intensity was increased. A determination of specific values resulted in 0.15 h-1 for growth rate and 23 mg/1.h for cell mass formation. 3. The chemostat apparatus is described in detail.     

Diauxic growth of Agrobacterium tumefaciens 15955 on succinate and mannopine.

Diauxic growth was observed upon incubation of Agrobacterium tumefaciens 15955 on a mixture of succinate and mannopine as the carbon source. Diauxic growth was also observed when either fumarate or L-malate was mixed with mannopine. No diauxie was detectable when A. tumefaciens 15955 was grown on a mixture of mannopine and glucose, fructose, sucrose, or L-arabinose. Preferential utilization of succinate was observed in the initial growth phase of diauxie, whereas the final growth phase occurred at the expense of mannopine. Cells harvested during the initial growth phase exhibited a capacity for uptake of [14C]succinate but not of [14C] mannopine. A capacity for [14C]mannopine uptake was expressed during the final growth phase. Extracts from cells grown on a mixture of succinate and mannopine exhibited a low level of mannopine cyclase activity in the initial phase of diauxie. This activity increased substantially in the final phase of growth. Added succinate had no effect on the rate of [14C]mannopine uptake or mannopine cyclase activities of cells previously grown on mannopine. Diauxie was also observed during growth of strain 15955 on a mixture of succinate and octopine.     

Studies of the Utilization of Coconut Water Waste for the Production of the Food Yeast Saccharomyces fragilis

The accepted food yeast Saccharomyces fragilis was grown in batch and chemostat culture on coconut water and on a simulated coconut-water medium containing glucose, fructose, sucrose and sorbitol, to provide kinetic data for a feasibility study of microbial protein production. Analyses of growth on individual and mixed carbon substrates were made to determine sugar assimilation patterns in batch and chemostat cultures on coconut water. Growth on the polyol produced a much reduced specific growth rate, assimilation rate, growth yield and productivity compared to growth on the sugars. In mixed substrate fermentations a sequential utilization of the carbohydrates occurred. Both the monosaccharides repressed invertase synthesis and all three sugars repressed sorbitol assimilation. Complete carbon assimilation was only obtained by prolonged batch fermentation or in chemostat cultures at low dilution rates (<0.10 h^-1). Supplementation of coconut water with biotin and nicotinic acid increased biomass yields in chemostat cultures.     

Loss of cytochrome oxidase in Saccharomyces cerevisiae during inhibition of mitochondrial protein synthesis by erythromycin and chloramphenicol.

There is a major reduction in respiratory competence, and inhibitionof growth, several hours after the addition of erythromycin or chloramphenicol to Saccharomyces cerevisiae growing in medium containing a non-fermentable carbon source. Spectrographic evidence is presented for a loss of cytochrome oxidase as a consequence of the antibiotic treatment. This loss is prevented by cyanide or oligomycin. When glucose is added, however, the loss occurs irrespective of the presence of the respiratory inhibitors. Cycloheximide does not affect respiratory competence or cause loss of cytochrome oxidase, and it prevents the loss elicited by erythromycin if both compounds are added together. However, if cycloheximide is added some time after the addition of erythromycin, it fails to block the response to the latter drug. The results cannot be accounted for on the basis of the segregation of a finite number of mitochondria into an increasing number of progeny cells but, rather, suggest that the mitochondria are modified during growth in chloramphenicol or erythromycin.     

Characterization of nativeFrankia strains isolated from chilean shrubs (Rhamnaceae)

Nine nativeFrankia strains were isolated from root nodules of four chilean actinorhizal plants (Rhamnaceae). The strains were designated as ChI1, ChI2, ChI3 and ChI4 fromColletia hystrix; ReI4 and ReI6 fromRetanilla ephedra; TqI12 and TqI15 fromTalguenea quinquinervis and TtI42 fromTrevoa trinervis. By scanning electron microscopy, all the strains exhibited similar actinomycetal structures: hyphae, sporangia and vesicles. The growth patterns of the isolates in BAP medium were similar. All showed a lag phase of approximately 6–7 days, then exhibited a logarithmic phase, except the ReI4 strain which seems to follow a linear growth pattern. A common feature of all the strains was a rapid loss of biomass at the end of the growth phase. All native strains grew on BAP medium supplemented with glucose. In six out of nine strains, the glucose was the best of the carbon sources tested. However, the strains differed in their ability to use other carbon sources such as arabinose, mannitol, maltose, succinate, sucrose, pyruvate, propionate and galactose. The isolates were sensitive to six antibiotics assayed (ampicillin, penicillin G, rifampicin, chloramphenicol, erythromycin and kanamycin). Using the acetylene reduction assay, the nitrogenase activity of the strains was determined. All strains grown in BAP medium lacking a combined nitrogen source were able to reduce acetylene ‘in vitro’.     

Insufficient uracil supply in fully aerobic chemostat cultures of Saccharomyces cerevisiae leads to respiro-fermentative metabolism and double nutrient-limitation

A combination of chemostat cultivation and a defined medium was used to demonstrate that uracil limitation leads to a drastic alteration in the physiology of auxotrophic cells of Saccharomyces cerevisiae. Under this condition, the carbon source is dissimilated mainly to ethanol and acetate, even in fully aerobic cultures grown at 0.1 h^?1, which is far below the critical dilution rate. Differently from nitrogen-, sulphur-, or phosphate-limited cultures, uracil limitation leads to residual sugar (either glucose or sucrose) concentrations below 2 mM, which characterizes a situation of double-limitation: by the carbon source and by uracil. Furthermore, the specific rates of CO₂ production and O₂ consumption are increased when compared to the corresponding prototrophic strain. We conclude that when auxotrophic strains are to be used for quantitative physiological studies, special attention must be paid to the cultivation conditions, mainly regarding medium formulation, in order to avoid limitation of growth by the auxotrophic nutrient.     

Influence of sugars on blue light-induced synthesis of chlorophyll in cultured plant cells

In supension cultured tobacco cells only blue light induces and maintains chlorophyll synthesis if the liquid nutrient medium is supplemented with sucrose. The yield per gram fresh weight is closely correlated with the energy fluence rate of blue light, but not with the initial amount of sucrose added to the medium (3–12 g/l). The uptake of sucrose by the cells proceeds with a constant rate over the growth period independently of the initial amount leading within 10–25 days to sucrose-free media. Under these conditions the cells continue to synthesize chlorophyll for about 10 days. This limitation is overcome by adding sucrose to the medium at equal time intervals thus establishing a constant sugar level beyond the growth period. In contrast, glucose as carbon source cannot adequately replace sucrose in inducing and maintaining blue light-induced chlorophyll synthesis. Depending on the initial amount (3–10 g/l) this sugar is rapidly disappearing from the medium within 1–5 days after inoculation of the cells. It apparently serves as a preferential source of energy and carbon skeletons thus suppressing chlorophyll synthesis. On the other hand, glucose combined with sucrose in the medium brings about the characteristic induction and accumulation of chlorophyll in blue light which is observed with sucrose as the sole carbon source.Abbreviation EFR energy fluence rate - FW fresh weight - MS-medium Murashige-Skoog medium (Murashige and Skoog 1962)     

Aniline oxidation by microorganisms in chemostat cultivation

Under the conditions of chemostat cultivation, a mixed culture of microorganisms oxidized aniline at a gradually increasing concentration (up to 2.5 g/litre) as a sole source of carbon and nitrogen. The specific rate of aniline oxidation was as high as 160 mg per 1 g of dry biomass when aniline concentration in the growth medium was 2.5 g/litre. As aniline concentration in the growth medium was gradually raised, selection of the microorganisms took place and the number of the strains decreased from ten to two. The growth rate of the microorganisms fell down abruptly when phosphorus concentration in the medium was below 35 mg per 1 g of aniline.     

Fatty acid profiles of Streptococcus mutans NCTC 10832 grown on synthetic mediun with sucrose, fructose or sorbitol.

Streptococcus mutans NCTC 10832 was grown on synthetic medium in a chemostat, using various major carbon sources, viz, sorbitol, fructose and sucrose. Freeze-dried cells were methylated and the methyl esters analysed by GLC. The fatty acid profiles obtained showed small quantitative change with different sugars, sucrose concentrations and types of growth.     

Effect of the artificial electron acceptor reumycin on the nature of an intermediate accumulated by Pseudomonas aeruginosa bacteria

We investigated the effect of the autooxidizable electron acceptor reumicin on the oversynthesis of intermediates by the bacterium Pseudomonas aeruginosa during its growth limitation by a nitrogen source. Addition of reumicin which accepted the reducing equivalents from NADH(+)-dehydrogenase of the respiratory chain was shown to reduce the rate of alpha-ketoglutarate formation and yield, and to induce the synthesis and excretion of pyruvate into the cultivation medium. The maximal accumulation of pyruvate was observed when reumicin was added at a concentration of 0.4-0.5 mM. It is concluded that the nature of the overproduced intermediate, the rate of its biosynthesis and yield depend on the extent of reducibility of the pyridine nucleotide pool. The oversynthesis of alpha-ketoglutarate is suppressed by chloramphenicol, a protein synthesis inhibitor, which points to a possible involvement of inducible systems including the carriers of the acids via the cytoplasmic membrane.     

β-Galactosidase activity in cultured cotton cells (Gossypium Hirsutum L.): A comparison between cells growing on sucrose and lactose

Summary Cotton callus and suspension cultures developed from a cotton variety susceptible toXanthomonas malvacearum (E. F. Sm.) Dow, were grown on chemically defined media that contained one of the carbohydrate sources: 3% sucrose, 3% lactose, 3% maltose, 3% fructose, and 3% glucose. All cells were maintained on a medium with sucrose as the carbohydrate and subsequently transferred to media containing the above carbohydrates. Sucrose was the best carbon source for a high growth rate; however, cells growing on glucose, which was almost as good as sucrose, and cells growing on lactose did not turn brown when they reached the stationary phase of growth. A crude extract from callus tissue growing on lactose has a fivefold increase in β-galactosidase [EC 3.21.23] activity as compared with the extract from callus tissue growing on sucrose. When callus tissue growing on lactose was transferred tomedium containing sucrose, β-galactosidase activity decreased to the level as measured in cells maintained on sucrose. Callus cells growing on a lactose medium showed staining when treated with 5-bromo-4-chloro-3-indolyl β-D-galactopyranoside in which very heavy granular stains appeared. Cells growing on sucrose did not show the histochemical staining. These observations suggest that β-galactosidase is induced in cotton callus tissue that has been transferred from a medium containing sucrose to a medium containing lactose. This is journal article J-3704 of the Oklahoma Agricultural Experiment Station. The research was supported in part by a Presidential Challenge Grant from Oklahoma State University and the Oklahoma Agricultural Experiment Station.     

Effects of anaerobiosis and nitrate on the expression of succinate dehydrogenase and enzymes associated with nitrogen metabolism in Klebsiella pneumoniae

We have shown that the low histidase activity found in anaerobic, nitrogen-limited cultures of Klebsiella pneumoniae is due to repression of the right-hand hut operon. In addition, we have examined the effects of NO3- on the aerobic and anaerobic expression of catabolite- and NH4+-repressible enzymes in this organism. NO3- permitted anaerobic growth of K. pneumoniae in minimal medium containing histidine as the sole carbon source, and histidase and succinate dehydrogenase were derepressed during anaerobic growth in histidine/NO3- medium. Use of sucrose rather than histidine as the carbon source reversed the effects of NO3- and repressed histidase and succinate dehydrogenase activities. Anaerobic growth in sucrose/NO3- medium also uncoupled the expression of urease and glutamine synthetase.