The Effect of Various Aliphatic Aldehydes and Related Compounds on the Growth of Dipodascus aggregatus

The growth of Dipodascus aggregatus in cultures inoculated with cells from the acceleration phase of growth was stimulated by the saturated and unbranched aliphatic C(3) C(4) , and C(6) to C(11) aldehydes (80 μM]. Nonanal was most active in stimulating growth. The C(12) aldehyde inhibited growth. The C(5) , aldehyde generally inhibited growth. - Nonan did not affect growth. 2-Nonanone and 5-nonanone promoted growth insignificantly. - In cultures inoculated with cells from the exponential phase growth was unaffected or even inhibited by all the aldehydes tested. The C(4) , C(5) , C(10) , and C(11) aldehydes inhibited growth to a larger extent than nonanal.     

The Effect of Nonanal on Dipodascus aggregatus IV. Studies with Different Carbon Sources

Nonanal (80 μ) in ethanolic solution stimulated the growth of Dipodascus aggregatus with fructose (55.5 mM) as carbon source (inoculum grown with fructose or glucose). If the inoculum had been grown with galactose, neither growth with galactose nor growth with glucose was affected by nonanal. If the inoculum had been grown with glucose, growth with galactose was weakly. stimulated. —Growth with galactose (galactose-grown inoculum) was strongly stimulated by nonanal if xylose at a low concentration (0.53 mM) was added. — The oxygen uptake of glucose grown cells with glucose as substrate was stimulated by 200 μM nonanal in the absence of ethanol. The respiratory activity of galactose-grown cells was also stimulated with galactose as well as with glucose as substrate. In the absence of exogenous substrate the oxygen uptake of glucose-grown cells was weakly stimulated by nonanal whereas that of galactose-grown cells was strongly stimulated.     

The Effect of Nonanal on Dipodascus aggregatus

Biotin can not replace nonanal for Dipodascus aggregatus. The growth-promoting effect of nonanal (80 μW) remained unchanged when the concentration of biotin was increased from 2 μm per 1 to 200 μm per I. Oleic acid stimulated the growth of D. aggregates. However, unlike nonanal, oleic acid promoted growth even if cells from the exponential phase of growth were used as inoculum. The concentrations of oleic acid required to produce growth–stimulation were considerably higher than the concentrations of nonanal required to promote growth. The growth-stimulating effect f nonanal seems to be different from t he effect of oleic acid. The incorporation of ₁C-ghtCOM by D. aggregates was stimulated by the addition of nonanal (80μm) to the growth medium. The uptake of glucosamine was not affected by nonanal (80 or 160 μM in the presence of ethanol, 0.8 to 100μ in the absence of ethanol). Hexokinase activity in cell-free homogenates was not affected by the addition of nonanal over a concentration range from 0.0059 to 1250μM.     

Cohesive properties of axenically grown cells of the slime mould Dictyostelium discoideum

It has been found that Dictyostelium discoideum cells from the exponential growth phase of axenically grown cultures are cohesive, whereas those from stationary phase are not. These differences in cohesiveness are seen in phosphate buffer and in axenic medium. Stationary phase medium inhibits the aggregation of log phase cells; stationary phase cells inoculated into freshly prepared medium regain their cohesiveness. Stationary phase medium may contain an inhibitor of cell cohesion. pH differences between the two types of medium are not entirely responsible for loss of cohesiveness.     

Effect of culture conditions on batch growth ofPseudomonas fluorescens on olive oil

Summary Batch cultures ofPseudomonas fluores-cens were grown in minimal medium with olive oil as the sole carbon source. When olive oil me-dium was inoculated with cells from nutrient broth there was an initial lag phase followed by logarithmic growth. The duration of the lag phase was influenced by the incubation temperature and the growth phase of the inoculum. Both factors are known to affect lipase induction during growth in fat-free media. Maintenance of condi-tions reported to be conducive to lipase produc-tion in cultures used for inoculation ensured a minimal lag before logarithmic growth com-menced on olive oil. Growth on oil occurred when the culture was maintained at pH 6 or 7, but did not occur at pH 5 or 8.     

The Effect of Nouaual on Dipodascus aggregatus

The growth of a strain of Dipodascus aggrrgatus Francke-Grosmann was strongly promoted by the aliphatic aldehyde nonanal. The highest effect was found with 80–160 μmol of nonanal per 1. The growth-promoting activity of nonanal is principally the result of an ability to shorten the lag phase. Neither the maximum value for growth nor the growth rate seem to be increased. The growth-promoting activity of nonanal could be observed only if the cells used for inoculation were taken from a culture in the phase of accelerated growth. The highest growth-promoting activity was observed when the nonanal was added before inoculation, a large effect was still observed when it was added 24 hours after inoculation, but there was no effect when it was added 33 hours after inoculation. The growth-promoting activity of nonanal remained unchanged when a mixture of 15 vitamins and growth factors was given to the medium. Nonanol and nonanoic acid stimulated growth, although to a lower degree than nonanal. There was a gradual increase in the growth-promoting effect of nonanal as the pH of the medium was increased between 3.0 and 8.0, showing that this effect is most pronounced at the higher pH values.     

Cell aggregation in cultures of Micrococcus luteus studied by dynamic light scattering

Cell aggregation was studied using the method of dynamic light scattering in the course of growth of Micrococcus luteus cultures in a liquid medium. The method detects particles ranging in size from 0.5 to 1000 microm in samples containing no more than 10(5) cells/ml. When grown in liquid media, M. luteus forms aggregates; during the lag phase, 80% of the cells are found in aggregates of 10 to 1000 microm, only minor amounts being represented by single cells. With the onset of exponential growth, the aggregates were decomposed, and single cells became prevalent in the culture liquid. This observation confirms that the aggregation of the cells during the lag phase is prerequisite to the initiation of bacterial growth. The method may be used in biotechnology for monitoring the state of bacterial cultures.     

The Mechanism of Onset of the Stationary Phase in Euglena gracilis Grown with 10 mM Succinate: Intracellular pH Values*

SYNOPSIS. When Euglena gracilis were grown with 10mM succinate at pH 3.5 the extracellular pH averaged 3.62 and the cultures had produced 6 × 10⁵ cells/ml when the stationary phase began. Oxygen consumption values reached a maximum of 30 μliters/10⁶ cells/hr. Total protein and dry weights per cell remained constant during the logarithmic phase and began to decline when the late logarithmic phase was reached. Added succinate caused the cultures in stationary phase to commence logarithmic growth once more. Onset of the stationary phase in cultures grown at pH 3.5 was due to depletion of succinate. When cultures were grown at pH 6.9 the extracellular pH averaged 7.62 and the cultures produced 3 × 10⁵ cells/ml when the stationary phase began. Oxygen consumption values reached a maximum of 20 μliters/10⁶ cells/hr during the logarithmic phase. The decline in total protein and dry weights per cell began at the beginning of the logarithmic phase and continued into the stationary phase of growth. Cultures grown at pH 3.5 should produce a larger number of cells/ml than cultures grown at pH 6.9 if the cells are responding to the unionized moiety of succinate and not the ionized moiety. At pH 3.5 83% of the succinate is unionized, whereas at pH 6.9 0.20% of the succinate is unionized. The onset of the stationary phase in cultures grown at pH 3.5 and pH 6.9 is due to lack of an adequate amount of extracellular unionized succinate. Intracellular pH values were determined in cultures grown at pH 6.9 using the weak acid DMO (5.5-dimethyl-2,4-oxazolidinedione). As the extracellular pH increased from 6.90 to 7.62, the intracellular pH increased from 5.89 to 6.89. As the extracellular pH increased from 7.62 to 8.44, the intracellular pH increased from 6.89 to 7.50.     

Growth Stimulating Substance for Microorganisms Produced by Escherichia coli Causing the Reduction of the Lag Phase in Microbial Growth and Identity of the Substance with Pyrroloquinoline Quinone

The finding that most strains of microbes produce a growth stimulating substance for microorganisms was demonstrated and confirmed with the culture broth of Escherichia coli grown on a glucose-mineral medium. Addition of culture broth of E. coli to the culture media of the others markedly reduced the lag phase in microbial growth but not growth rate in the subsequent exponential phase nor the total cell yield in the stationary phase. The growth stimulation causing reduction of the lag phase was dependent on the amount of culture broth added. Occurrence of cell growth was essential for the excretion of the growth stimulating substance by E. coli. Under identical inoculum size, even with a heavy inoculum, a further reduction of the lag phase was observed by the addition of culture broth of E. coli. The substance was only effective at the initial growth phase but inert when the substance was added to a growing culture at the exponential phase. Finally, the substance was identified as pyrroloquinoline quinone, a newly established coenzyme, through chromatographic, spectroscopic and enzymatic criteria.     

Effects of growth conditions and mutations in RNA polymerase on translational activity in vitro in Escherichia coli

Summary The translational capacity in vitro in Escherichia coli, using RNA from phage R17 or Q as messenger, is several times higher if the extracts are prepared from cells harvested in early exponential phase or grown under conditions of good aeration compared to if extracts are prepared from cells harvested in a later growth phase or grown under semi-aerobic conditions. In low activity extracts the production of phage replicase protein is preferentially affected. Growth of a wild type strain under semiaerobic conditions has a less pronounced effect on translational capacity in vitro using crude mRNA from normal or T4 infected cells or with poly(U).Mutants were fortuitously found which did not show a lowered translational activity in vitro as a result of entering late phase of growth. Two of these were changed in RNA polymerase.Two different translational inhibitors can be demonstrated in the ribosomal wash fraction obtained from semi-aerobically grown wild type cells, whereas only one was found in the case of aerobically grown cells. The low translational activity of semi-aerobically grown cells in vitro is implied to be dependent on the induction or activation of a translational inhibitor. It behaves like a protein but is not likely to be a protease or RNAse.     

The activities of two pathways of nitrate reduction in Rhodopseudomonas capsulata

1. The disappearance of nitrate from suspensions of intact, washed cells of Rhodopseudomonas capsulata strain N22DNAR⁺ was measured with an ion selective electrode. In samples taken from phototrophic cultures grown to late exponential phase, nitrate disappearance was partially inhibited by light but was not affected by the presence of ammonium. Nitrate disappearance from samples from low density cultures in the early exponential phase of growth was first inhibited and later stimulated by light. In these cells ammonium ions inhibited the light-dependent but not the dark disappearance of nitrate. It is concluded that cells in the early exponential phase of growth possess both an ammonium-sensitive, assimilatory pathway for nitrate reduction (NRI) and an ammonium-insensitive pathway for nitrate reduction (NRII) which is linked to respiratory electron flow and energy conservation. In cells harvested in late exponential phase only the respiratory pathway for pitrate reduction is detectable.
2. Nitrate reduction, as judged by the oxidation of reduced methyl viologen by anaerobic cell suspensions, was measured at high rates in those strains of R. capsulata (AD2, BK5, N22DNAR⁺) which are believed to possess NRII activity but not in those strains (Kbl, R3, N22) which only manifest the ammonium-sensitive NRI pathway. On this basis we have used nitrate-dependent oxidation of reduced methyl viologen as a diagnostic test for the nitrate reductase of NRII in cells harvested from cultures of R. capsulata strain AD2. The activity was readily detectable in cells from cultures grown aerobically in the dark with ammonium nitrate as source of nitrogen. When the oxygen supply to the culture was withdrawn, the level of methyl viologen-dependent nitrate reductase increased considerably and nitrite accumulated in the culture medium. Upon reconnecting the oxygen supply, methyl viologen-dependent nitrate reductase activity decreased and the reduction of nitrate to nitrite in the culture was inhibited. It is concluded that the respiratory nitrate reductase activity is regulated by the availability of electron transport pathways that are linked to the generation of a proton electrochemical gradient.

     

Stimulation of the multiplication of Micrococcus luteus by an autocrine growth factor

Viable cells of Micrococcus luteus secrete a proteineous growth factor (Rpf) which promotes the resuscitation of dormant, nongrowing cells to yield normal, colony-forming bacteria. When washed M. luteus cells were used as an inoculum, there was a pronounced influence of Rpf on the true lag phase and cell growth on lactate minimal medium. In the absence of Rpf, there was no increase in colony-forming units for up to 10 days. When the inoculum contained less than 10⁵ cells ml^–1, macroscopically observable M. luteus growth was not obtained in succinate minimal medium unless Rpf was added. Incubation of M. luteus in the stationary phase for 100 h resulted in a failure of the cells to grow in lactate minimal medium from inocula of small size although the viability of these cells was close to 100% as estimated using agar plates made from lactate minimal medium or rich medium. The underestimation of viable cells by the most-probable-number (MPN) method in comparsion with colony-forming units was equivalent to the requirement that at least 10⁵ cells grown on succinate medium, 10³ cells from old stationary phase, or approximately 10–500 washed cells are required per millilitre of inoculum for growth to lead to visible turbidity. The addition of Rpf in the MPN dilutions led to an increase of the viable cell numbers estimated to approximately the same levels as those determined by colony-forming units. Thus, a basic principle of microbiology –“one cell-one culture”– may not be applicable in some circumstances in which the metabolic activity of “starter” cells is not sufficient to produce enough autocrine growth factor to support cell multiplication. Received: 7 December 1998 / Accepted: 7 April 1999     

Somatic embryogenesis in liquid cultures of a tetraploidAlstroemeria

A simple and efficient procedure was developed for regeneration of a tetraploid cultivar ofAlstroemeria (A. pelegrina x A. psittacina) via somatic embryogenesis in liquid cultures. Embryogenic callus induced from mature zygotic embryos, cultured on MS medium supplemented with 40 μM NAA and 20 μM kinetin, was used as inoculum for liquid cultures. Pre-culture of the callus on MS medium supplemented with 80 μM NAA for two days was essential for cell proliferation in the liquid medium. Embryogenic cell aggregates, obtained by sieving through a 750 μm nylon mesh, continued to proliferate in media containing 10 or 20 μM NAA and 10 or 20 μM kinetin. When transferred to a semi-solid half strength MS medium supplemented with casein hydrolysate, cell aggregates successfully differentiated into plantlets which later grew to maturity under greenhouse conditions.     

Extracellular Polysaccharide Is Not Responsible for Aluminum Tolerance of Rhizobium leguminosarum bv. Phaseoli CIAT899

Strain UHM-5, a pSym^- Exo^- derivative of the aluminum-tolerant Rhizobium leguminosarum bv. phaseoli strain CIAT899, was equally tolerant of aluminum (Al) as the parental culture. Dialyzed culture supernatants of the wild-type cells grown in YEM broth (10⁹ cells ml^-1) contained 185 μg of glucose equivalents ml^-1 whereas UHM-5 culture supernatants yielded 2 μg of glucose ml^-1. The Exo^- derivative and the parental strain gave essentially similar growth in medium containing from 0 to 300 μM Al, indicating that the pSym of CIAT899, and extracellular polysaccharide, were not involved in the aluminum tolerance of this strain. However, increasing the level of Al from 80 to 150 μM increased the lag phase, induced a slight killing of the inoculum, and depressed the final populations by about fivefold. Doubling the aluminum concentration from 150 to 300 μM presented a severe aluminum stress to CIAT899 and UHM-5: the inoculum level dropped 10-fold, indicating killing of the inoculum, and remained depressed for ca. 4 days before continuing to grow slowly; the final population was decreased 15-fold relative to that of cultures grown in medium containing 80 μM Al. The production by CIAT899 of other extracellular or intracellular aluminum tolerance factors was investigated in culture by using aluminum-sensitive rhizobia as stress indicators. These experiments, conducted at 80 μM Al, demonstrated that CIAT899 produced neither extracellular nor intracellular products that could alleviate toxicity for the Al-sensitive indicator rhizobia.     

PROTEIN AND AMINO ACID COMPOSITION OF THE OBLIGATE HALOPHILE APHANOTHECE HALOPHYTICA (CYANOPHYTA)1

Total protein was determined for cells of Aphanothece halophytica Fremy harvested during early log, mid-log and linear growth phases in media containing 1, 2, and 3 M NaCl. Cells grown in medium containing 1 M NaCl showed a progressive increase in protein content up to a maximum of 76% of dry weight (linear phase). Total protein also increased in cells grown in 2 M NaCl. medium (56.5–72.0%). Cells grown in 3 M NaCl medium showed a progressive decrease in total protein (59.9–43%). Although amounts of protein varied, the percentages of the respective amino acids of hydrolyzed bulk protein were consistent to within 1% for linear phase cells grown in 1, 2, and 3 M NaCl cultures. Percentages of acidic amino acids were 2.3–2.6 times greater than those of the basic amino acids. The amino acid composition of phycocyanin was similar to that of bulk protein. Free amino acids varied with both age of the culture and the concentration of NaCl. The high quantity and quality of the protein observed suggest that A. halophytica might be a useful food organism.     

Cell Aggregation in Cultures of <Emphasis Type="Italic">Micrococcus luteus</Emphasis>, Studied by Dynamic Light Scattering

Cell aggregation was studied using the method of dynamic light scattering in the course of growth of Micrococcus luteus cultures in a liquid medium. The method detects particles ranging in size from 0.5 to 1000 μm in samples containing no more than 10⁵ cells/ml. When grown in liquid media, M. luteus forms aggregates; during the lag phase, 80% of the cells are found in aggregates of 10–1000 μm, only minor amounts being represented by single cells. With the onset of exponential growth, the aggregates were decomposed and single cells became prevalent in the culture liquid. This observation confirms that the aggregation of the cells during the lag phase is prerequisite to the initiation of bacterial growth. The method may be used in biotechnology for monitoring the state of bacterial cultures. __________ Translated from Prikladnaya Biokhimiya i Mikrobiologiya, Vol. 41, No. 6, 2005, pp. 647–651. Original Russian Text Copyright ? 2005 by Voloshin, Kaprelyants.     

Major factors affecting isocitrate lyase activity in <Emphasis Type="Italic">Rhodobacter capsulatus</Emphasis> B10 under phototrophic conditions

External factors affecting the activity of isocitrate lyase (ICL) in Rhodobacter capsulatus B10 grown under controlled photoheterotrophic anaerobic conditions were investigated. The activity of this enzyme was found to depend on the history of the inoculum and on the growth phase on acetate medium. Intracellular degradation of ICL under unfavorable conditions was shown. However, transition of the growing culture from acetate to lactate did not result in active degradation of the enzyme. When transferred to acetate, Rba. capsulatus could grow without the lag phase and did not exhibit ICL activity, suggesting another anaplerotic pathway in Rba. capsulatus cells. Since emergence of the ICL activity in the cells grown on acetate results in an increase in its growth rate, the glyoxylate bypass plays an important role in acetate metabolism of Rba. Capsulatus.     

PHOSPHATE UPTAKE KINETICS IN EUGLENA GRACILIS (Z) (EUGLENOPHYCEAE) GROWN IN LIGHT/DARK CYCLES. II. PHASED PO4-LIMITED CULTURES1

The characteristics of phosphate uptake and photosynthetic capacity were studied in P-limited populations of Euglena gracilis Klebs (Z), using both P-limited batch cultures in stationary phase and cyclostat cultures grown on 14:10 LD. P uptake obeyed Michaelis-Menten kinetics between 0 and 150 μM PO₄ under both growth conditions. The value of V_max was 35% lower in the dark than in the light in the stationary phase cells. The value of K₈ was not affected by light conditions, and uptake was completely inhibited in the presence of 1 mm KCN. P uptake (at 2.0 μM PO₄) and photosynthetic capacity showed diel periodicity with peak rates occurring just before the beginning of the dark period for P uptake, and 8 h into the light period for photosynthetic capacity. V_max for P uptake increased by a factor of 1.5 over the light period, whereas K₈ remained constant at 1.4 μM PO₄. These patterns were displayed by both nondividing stationary phase cells and populations in which less than a third of the cells divided each day, indicating that the rhythmicity is not coupled to cell division.     

Mechanisms for the development of genetically variable mycorrhizal mycelia in the ectomycorrhizal fungus Laccaria bicolor.

An in vitro study investigated mechanisms for the development of genetically variable mycorrhizal mycelia for Laccaria bicolor. Seedlings of jack pine (Pinus banksiana) grown nonaseptically in an autoclaved soil substrate were given different L. bicolor inoculum treatments. These included (i) a dikaryotic mycelium genotype (D); (ii) D and basidiospores collected from one group of five sporophores (T1); (iii) D and basidiospores collected from 10 sporophores, two from each of five different groups (T5); (iv) T1 alone; (v) T5 alone; and (vi) a noninoculated control. Dikaryotic mycelial inoculum was provided at the time of sowing, while basidiospore inoculum was added at 10 weeks after seed germination. Sporophore formation was induced after 20 weeks of growth, and dikaryotic cultures were isolated from their tissue. Seedlings were harvested, and growth and mycorrhization were assessed. Levels of both were generally lower for T1-treated seedlings, compared with seedlings receiving D, while levels for T5-treated seedlings were intermediate. Sporophore genotype variability was assessed for inoculum treatments by using the isoenzymatic marker leucine aminopeptidase. The greatest genetic variability was seen with the basidiospore treatments T1 and T5, with up to four leucine aminopeptidase patterns per seedling. The mixed treatments D plus T1 and D plus T5 produced most frequently, but not exclusively, the inoculated dikaryon genotype. After isoenzyme results were assessed, variable sporophore isolates of mixed treatments were analyzed with randomly amplified polymorphic DNA and PCR mitochondrial DNA markers to determine if they were formed by dikaryon-monokaryon crosses between the inoculated dikaryon and monosporous mycelia.(ABSTRACT TRUNCATED AT 250 WORDS)     

Localization of the membrane-bound hydrogenase in Alcaligenes eutrophus by electron microscopic immunocytochemistry

Abstract The membrane-bound hydrogenase was localized in cells of Alcaligenes eutrophus by electron microscopic immunocytochemistry. Post-embedding labeling performed on ultrathin sections revealed that the enzyme was located predominantly (80%) at the cell periphery in autotrophically and heterotrophically grown bacteria harvested from the exponential phase of growth. In the stationary growth phase, however, only 50% of the enzyme was found at the cell periphery; the remaining 50% was distributed over the cytoplasm. The relative amount of electron microscopic label per cell as seen by application of the protein A—gold technique was higher in cells grown autotrophically as compared to cells grown heterotrophically on fructose. Derepression of the enzyme was followed electron microscopically in a substrate-shift experiment (growth on fructose, followed by a shift to glycerol). Major amounts of the enzyme appeared to undergo a reattachment to the cytoplasmic membrane under these conditions, starting with a reduced location of the enzyme in the cytoplasm and an accumulation in cell areas close to the cytoplasmic membrane. These findings indicate that the 'membrane-bound' hydrogenase (i.e., that material enriched as membrane-bound enzyme according to the appropriate activity test) is not, in fact, membrane bound or membrane integrated but membrane associated. It may or may not interact with the cytoplasmic face of the cytoplasmic membrane, depending on the growth phase and conditions.