Growth phases of Mycoplasma in liquid media observed with phase-contrast microscope

Razin, Shmuel (University of Connecticut, Storrs), and Benjamin J. Cosenza. Growth phases of Mycoplasma in liquid media observed with phase-contrast microscope. J. Bacteriol. 91:858-869. 1966-Growth of 11 Mycoplasma strains in liquid media was followed by phase-contrast microscopy. A similar pattern of development was common to all strains. Branching filaments, 0.3 to 0.4 mu thick, characterized the early logarithmic phase of growth. The length of the filaments varied according to the strain tested and the growth medium. Addition of oleic acid to the medium induced the formation of very long filaments by M. laidlawii strain B. Upon aging, the filaments were found to break up into chains of coccoid elements. These chains further fragmented to yield shorter chains and single coccoid elements, which characterized the stationary and decline phases of growth. The size of the coccoid elements increased from 0.3 to 0.4 mu, when formed in the filaments, to 0.6 to 0.8 mu after being released from the chains. Further increase in the size of the cells took place at the decline phase of growth, leading to the formation of very large cells reaching a diameter of 10 to 20 mu. However, these large cells had the appearance of empty vesicles and were apparently nonviable as indicated by viable-count experiments.     

The Ability of 2-Deoxyglucose to Promote the Lysis of Streptococcus bovis JB1 via a Mechanism Involving Cell Wall Stability

The non-metabolizable glucose analog, 2-deoxyglucose (2-DG), decreased the growth rate and optical density of Streptococcus bovis JB1 20%, but it had an even greater effect on stationary phase cultures. Control cultures receiving only glucose (2 mg/ml) lysed very slowly (<5% decline in optical density in 48 h), but cultures that had been grown with glucose and 2-DG (2 mg/ml each) lysed much faster (>85% decline in optical density in 48 h). Cultures that were treated with inhibitors that decreased intracellular ATP (sodium fluoride, nigericin, and valinomycin or tetrachlorosalicylanilide) or membrane potential (sodium fluoride, nigericin, and valinomycin, tetrachlorosalicylanilide, or phenylmethylsulfonyl fluoride) did not promote lysis. 2-DG had its greatest effect when it was added at inoculation. If 2-DG was added at later times, less lysis was observed, and cells that were given 2-DG just prior to stationary phase were unaffected. Cells that were grown with glucose and 2-DG were more susceptible to cell wall-degrading enzymes (lysozyme and mutanolysin) than cells that had been grown only with glucose, but sublethal doses of penicillin during growth did not promote lysis after the cells had reached stationary phase. The idea that 2-DG might be affecting autolytic activity was supported by the observation that cultures washed and resuspended in fresh medium with or without 2-DG lysed at a slower rate than cultures that were not centrifuged or were resuspended in the culture superntant. Received: 11 April 1997 / Accepted: 10 June 1997     

Detoxification of Liquid Cultures of Bordetella pertussis by Forced Aeration at High pH

Cultures of Bordetella pertussis cultivated in shake flasks were invariably highly toxic for mice, but cultures of the same strain grown in vortex-aerated vessels were nontoxic at the time of harvest. Results reported here indicate that toxin is present during the early log phase in vortex-aerated cultures, but is lost as the cultivation proceeds. The loss of toxicity is apparently due to denaturation of the toxin by the combined influence of vigorous aeration and elevated pH.     

The use of EDTA or polymyxin with lysozyme for the recovery of intracellular products fromEscherichia. coli

Summary Escherichia coli cells taken from exponential and late stationary (or decline) phases of culture were very susceptible to lysis by EDTA/lysozyme. Log phase cells were most susceptible to lysis by polymyxin/lysozyme. Treatment ofE. coli with EDTA and lysozyme compared favourably with sonication as a method for release of intracellular protein. Concentration ranges for optimal lysis were 100–800 μg/ml for EDTA and 25–50 μg/ml for lysozyme.     

Growth dynamics in relation to the production of the main cellular components in the toxic dinoflagellate Ostreopsis cf. ovata

In the last decade Ostreopsis cf. ovata blooms have been among the most intense along the entire Mediterranean coast, leading to ecological and human health problems, that are associated with the toxins (palytoxin-like compounds) produced by these algal cells. These compounds are secondary metabolites, whose rates of synthesis depend on the metabolism of their precursors. In general, growth dynamics and toxicity of dinoflagellates reflect the physiological status of the organism. The aim of the present study was to investigate the cellular production of the main biochemical compounds likely involved in the growth and toxicity dynamics of O. cf. ovata during exponential to the late stationary phase in batch cultures of an Adriatic strain. Removal of major nutrients from the medium was monitored along with concentration, biovolume and production of the main cellular components (e.g. polysaccharides, proteins, lipids and toxins). Nutrient uptake, as well as toxin production rates were calculated in the different growth periods. Nutrients (N and P) were completely depleted when cells entered stationary phase and the greatest net toxin production rate (R_TOX) occurred during the first days of growth. The various palytoxins reported a relative abundance quite stable during the different growth phases, while the total toxin cellular amount increased along the growth curve. Total and extracellular released polysaccharides, as well as the lipid content increased greatly during the stationary phase, while proteins were mainly produced by cells during the exponential phase. The continuous release of polysaccharides could facilitate cell aggregation and the formation of the benthic community during algal blooms. The trend of production of the main cellular compounds in O. cf. ovata and the growth dynamics of this species lead us to hypothesize that the fast growth of this dinoflagellate, associated with the rapid use of environmental resources (nutrients, and phosphates in particular), may be an ecological/adaptive strategy which could favor this organism in competition with other species.     

Analysis of growth phase regulated KatA and CatE and their physiological roles in determining hydrogen peroxide resistance in Agrobacterium tumefaciens

Agrobacterium tumefaciens possesses two catalases, a bifunctional catalase-peroxidase, KatA and a homologue of a growth phase regulated monofunctional catalase, CatE. In stationary phase cultures and in cultures entering stationary phase, total catalase activity increased 2-fold while peroxidase activity declined. katA and catE were found to be independently regulated in a growth phase dependent manner. KatA levels were highest during exponential phase and declined as cells entered stationary phase, while CatE was detectable at early exponential phase and increased during stationary phase. Only small increases in H2O2 resistance levels were detected as cells entering stationary phase. The katA mutant was more sensitive to H2O2 than the parental strain during both exponential and stationary phase. Inactivation of catE alone did not significantly change the level of H2O2 resistance. However, the katA catE double mutant was more sensitive to H2O2 during both exponential and stationary phase than either of the single catalase mutants. The data indicated that KatA plays the primary role and CatE acts synergistically in protecting A. tumefaciens from H2O2 toxicity during all phases of growth. Catalase-peroxidase activity (KatA) was required for full H2O2 resistance. The expression patterns of the two catalases in A. tumefaciens reflect their physiological roles in the protection against H2O2 toxicity, which are different from other bacteria.     

The effect of growth and starvation on the lysis of the ruminal cellulolytic bacterium Fibrobacter succinogenes.

Growing cultures of Fibrobacter succinogenes assimilated more ammonia than could be accounted for by cellular protein, RNA, or DNA and released large amounts of nonammonia nitrogen. The difference between net and true growth was most dramatic at low dilution rates, but mathematical derivations indicated that the lysis rate was a growth rate-independent function. The lysis rate was sevenfold greater than the true maintenance rate (0.07 h-1 versus 0.01 h-1). Because slowly growing cells had as much proton motive force and ATP as fast-growing cells, lysis was not a starvation response per se. Stationary-phase cells had a lysis rate that was 10-fold less than that of growing cells. Rapidly growing cells were not susceptible to phenylmethylsulfonyl fluoride, but phenylmethylsulfonyl fluoride increased the lysis rate of the cultures when they reached the stationary phase. This latter result indicated that autolysins of stationary-phase cells were being inactivated by a serine proteinase. When growing cells were treated with the glycolytic inhibitor iodoacetate, the proteinase-dependent transition to the stationary phase was circumvented, and the rate of lysis could be increased by as much as 50-fold.     

Toxin production,retention, and extracellular release by Dinophysis acuminata during extended stationary phase and culture decline

Dinophysis spp. produce diarrhetic shellfish poisoning (DSP) toxins and pectenotoxins. The extent to which the dinoflagellate cells retain their toxicity in stationary phase, a period when cells are most toxic, and their transition into cell death is not known. Here we present results on the production, recycling, retention, and release of toxins from a monoculture of Dinophysis acuminata during these two important stages. Once stationary phase was reached, cultures were divided between light and dark treatments to identify if light influenced toxin dynamics. Light was required for long-term cell maintenance (>2 months) of D. acuminata in the absence of prey, however, in the dark, cells in stationary phase survived on reserves alone for four weeks before beginning to decline. Cells maintained relatively constant levels of intracellular OA (0.39 ± 0.03 pg/cell, 0.44 ± 0.05 pg/cell), DTX1 (0.45 ± 0.09 pg/cell, 0.64 ± 0.10 pg/cell) and PTX2 (10.4 ± 1.4 pg/cell, 11.0 ± 1.9 pg/cell) in the dark and light treatments, respectively, throughout stationary phase and into culture decline. Toxin production was only apparent during late exponential and early stationary growth when cells were actively dividing. In general, the concentration of dissolved (extracellular) toxin in the medium significantly increased upon culture aging and decline; cells did not appear to be actively or passively releasing toxin during stationary phase, but rather extracellular release was likely a result of cell death. Light availability did not have an apparent effect on toxin production, quotas, or intracellular vs. extracellular distribution. Together these results suggest that a bloom of D. acuminata would retain its cellular toxicity or potency as long as the population is viable, and that cells under conditions of low light (e.g., at the boundary or below euphotic zone) and/or minimal prey could maintain toxicity for extended periods.     

Increases in activities of aminoacyl-tRNA synthetases during cold-treatment of dormant pear embryo

A weak luminescence has been detected from liquid cultures of the yeast Saccharomyces cerevisiae, during two different stages of its growth cycle. The most intense emission occurred during the latter portion of the logarithmic stage of growth and varied from culture to culture within the range 160–1540 counts/sec. A less intense emission of 290–1220 counts/sec was observed during the early stationary phase. The luminescences lasted for periods in excess of three hours, and were measured with a photon counter sensitive to wavelengths in the range 180–650 nm. The quantum efficiency of the log phase emission varied from 0.07 to 0.7 photons per cell division for the various cultures. These observations provide limited support for certain published claims relating to the existence of a so-called mitogenetic radiation from dividing cells.     

Osmotic and Metabolic-Induced Changes in Light Scattering of Leishmania donovani as Measured by Flow Cytometry

Leishmania donovani promastigotes were collected from cultures in log and stationary phases of growth and resuspended in Hank's Balanced Salt Solution containing 1 mM sodium acetate. Changes in the forward and side scattering of the cells were measured by flow cytometry in response to acute changes in osmolality and to the addition of several different substrates. Forward and side scattering of cells from log phase cultures decreased when the osmolality was decreased by the addition of H₂O and increased when the osmolality was increased by the addition of NaCl. Cells from stationary phase cultures had about the same forward scatter as cells from log phase cultures, but almost a four-fold lower side scatter, and their side scatter values did not change significantly in response to a reduction in osmolality. Microscopic observation showed that both log and stationary cells got longer and thinner, on average, in response to hyperosmolality. The light scattering properties of log (but not of stationary) cells changed in a reproducible manner when substrates were added to the buffer. The ratio of forward to side scatter increased in the following order: controls in balanced salt solution >aspartate >glutamate, glucose or 2-deoxyglucose >alanine >proline. Thus the light scattering properties of L. donovani promastigotes change with culture age, in response to changes in osmolality, and, in log phase cells, in response to the presence of several substrates.     

Cytochemical Changes in Aging Ochromonas; Evidence for an Alkaline Phosphatase

SYNOPSIS. Changes accompanying aging in light-grown stationary cultures of Ochromonas danica were examined cytochemically. Succinate dehydrogenase activity increased during the log phase and decreased steadily during stationary and later phases. Acid phosphatase, alkaline phosphatase and lipase activities increased during the several phases of growth, as did accumulation of lipid. These results imply loss of mitochondrial activity and a gain in lysosomal activity with aging of the cell population. Alkaline phosphatase, widely distributed in animals and believed absent from most photosynthetic organisms and bacteria, is here reported in the photosynthetic genus Ochromonas.     

Identification of a lambda toxin-negative Clostridium perfringens strain that processes and activates epsilon prototoxin intracellularly

Clostridium perfringens type B and D strains produce epsilon toxin (ETX), which is one of the most potent clostridial toxins and is involved in enteritis and enterotoxemias of domestic animals. ETX is produced initially as an inactive prototoxin that is typically then secreted and processed by intestinal proteases or possibly, for some strains, lambda toxin. During the current work a unique C. perfringens strain was identified that intracellularly processes epsilon prototoxin to an active form capable of killing MDCK cells. This activated toxin is not secreted but instead is apparently released upon lysis of bacterial cells entering stationary phase. These findings broaden understanding of the pathogenesis of type B and D infections by identifying a new mechanism of ETX activation.     

The regulation of DNA replication during senescence and rejuvenation of Dunaliella tertiolecta by factors other than available metabolic energy

The unicellular green alga, Dunaliella tertiolecta undergoes a 4-fold reduction in DNA while progressing from early to late log phase of culture. During the period when the reduction in DNA occurs, the cells continue to divide at the maximal rate. Pulse labelling indicates little incorporation of [³H]thymidine into DNA during late log phase. Stationary phase cultures diluted with fresh medium undergo a lag period during which there is a 4-fold increase in DNA and a rapid incorporation of [³H]thymidine into DNA into DNA before division. The evidence indicates that the differences in the levels of DNA are not attributable to tetraploidy, multinucleated cells or a high level of redundancy of G-C-rich satellite DNA in early log phase cells. During stationary phase there is an increase in cellular starch and a decrease in free nucleotides. Electron microscopy reveals that stationary phase cells are distorted by many granules proven to be starch by their susceptibility to amylase treatment. The production of starch by stationary phase cells indicates that DNA replication does not cease because of a deficit of metabolic energy but because of some direct function of culture density.     

Ruptured fission yeast walls

Distributions of rupture sites of fission yeast cells ruptured by glass beads have been related to a new morphometric analysis. As shown previously (Johnson et al.,Cell Biophysics, 1995), ruptures were not randomly distributed nor was their distribution dictated by geometry, rather, ruptures at the extensile end were related to cell length just as the rate of extension is related to cell length. The extension patterns of early log, mid-log, late log, and stationary phase cells from suspension cultures were found to approximate the linear growth patterns of Kubitschek and Clay (1986). The median length of cells was found to decline through the log phase in an unbalanced manner.     

Pertussis toxin and cross-reactive antigens in dynamics of Bordetella pertussis cultivation

Cultures of Bordetella pertussis from phases of exponential growth, retarded growth and from stationary phase were obtained during periodic dynamic cultivation. Preparations for intravenous immunization of rabbits were made from these cultures. Levels of IgG to pertussis toxin, cell walls preparations from 12 bacterial species, 4 organo-specific antigens, and 7 organospecific human antigens were measured in obtained sera. It was shown that higher levels of IgG to pertussis toxin were found in sera of rabbits immunized with cultures from exponential growth phase whereas decrease of this level in 8 times was observed in sera of rabbits immunized with cultures from retarded growth phase or end of stationary phase. After immunization with culture from exponential growth phase increase of IgG levels to cross-reactive antigens was not observed compared to levels of these antibodies in control sera obtained before immunization. After immunization with cultures from retarded growth phase or end of stationary phase increase of IgG levels to preparations of cell walls of Staphylococcus aureus, S. epidermidis, Pseudomonas aeruginosa, Klebsiella pneumoniae, to denaturated DNA, elastin, and renal and liver microsomal fractions was detected compared to control sera. Described data can substantiate usefulness of obtaining the most specific diagnostic sera and test-systems using cultures of B. pertussis from the phase of exponential growth.     

Regulation of mitochondrial membrane assembly in Neurospora crassa. Transient expression of a respiratory mutant phenotype.

Cultures of mutant cni-1, a chromosomal mutant of Neurospora crassa, undergo a marked change in respiratory properties as the age of the culture increases. Early log phase cultures have a high level of respiration that is insensitive to inhibition by cyanide or antimycin A. Late log and stationary phase cultures have reduced rates of respiration. A high percentage of this respiration is inhibited by cyanide. Mitochondria from early log phase cni-1 have an excess of cytochrome c and little or no detectable cytochrome aa3. Mitochondria from late log and stationary phase cultures have levels of c-, b-, and a-type cytochromes that are not significantly different in concentration from those found in wild type cells. The cytochrome aa3 content and the cytochrome oxidase activity of cni-1 mitochondria increase 5- to 10-fold as the age of the culture increases. Mitochondria from early log phase cells of cni-1 synthesize only polypeptides of apparent molecular weights 7,000 to 10,000 and donot synthesize any of the mitochondrial components of cytochrome oxidase. Mitochondria from late log and stationary phase cells synthesize the normal complement of mitochondrial translation products including the mitochondrial components of cytochrome oxidase. The assembly of cytochrome oxidase is likely due to the availability of the mitochondrially synthesized components of the enzyme. The regulation of mitochondrial translation in the cni-1 mutant is independent of the nutrient content of the growth medium and is due to the accumulation or depletion of some component within the cell.     

Effects of culture density on the kinetics of germ tube formation in Candida albicans

The relationship between culture density or phase of growth at 24.5 degrees C and the ability of Candida albicans to form germ tubes when shifted to 37 degrees C was investigated. Evidence is presented demonstrating germ tube production from liquid synthetic medium cultures at all phases of growth. Previous studies reported that only cells from stationary phase cultures were competent to form germ tubes. Comparisons between exponential and stationary phase cultures indicate more rapid and more synchronous germ tube production from cells growing in the exponential phase.     

Gonyaulax monilata: Population Growth and Development of Toxicity in Cultures

SYNOPSIS. The development of three 8-liter and four 12-liter cultures of the photosynthetic dinoflagellate Gonyaulax monilata was followed for 4 months. Weekly estimates were made of population levels of this chain-forming flagellate, along with incidence of cells in chains and toxicity to fish. Guppies ( Lebistes reticulatus ) were used to assay toxicity. Populations reached a peak when cultures were 3–5 weeks old, declined during weeks 6–10, and tended to stabilize thereafter thru the 17th (final week). The percentage of cells in chains was related to the slope of the population curve; rapidly increasing populations had the highest proportion of long chains, suggesting that incidence of chains is an index of the growth phase in G. monilata. Peak toxicity was not reached until culture populations had been steadily declining for a month, indicating that most toxin is released by autolysis. The reproducibility of culture population and toxicity levels recommend the methods used for future studies.