Regulation of isocitrate lyase in a mutant of Rhodopseudomonas capsulata adapted to growth on acetate

Studies on acetate utilization by Rhodopseudomonas capsulata strain St. Louis indicated that the wild type grew poorly on acetate and made little if any of the glyoxylate cycle enzyme isocitrate lyase. A spontaneous mutant, Ac-l, capable of vigorous and immediate growth on acetate and exhibiting high levels of isocitrate lyase activity, was isolated in the course of those studies.Isocitrate lyase was not formed when the mutant was grown on malate. Addition of malate to cultures of Ac-l growing on acetate resulted in loss of the enzyme by dilution through growth.Starvation of acetate-grown Ac-l for acetate resulted in a rapid and complete loss of isocitrate lyase activity which was shown to be energy dependent. Readdition of acetate to a starved culture previously grown on acetate resulted in a rapid recovery of enzyme activity. The recovery required energy and was sensitive to chloramphenicol inhibition at any time during the recovery phase.     

Composition of the cell wall of the phage resistant mutantRhodopseudomonas capsulata St. Louis RC1-

A mutant ofRhodopseudomonas capsulata St. Louis (R. capsulata St. Louis RC1^-), resistant against the bacteriophage RC1, was isolated and its cytoplasmic membrane and cell wall fractions (buoyant densities on sucrose density gradient centrifugation: 1.123 and 1.222 g/cm³, respectively) were obtained. Different from the wild type strain, the cell wall fraction of the mutant lacked galactose. Galactose is a characteristic component of the capsule polysaccharide ofR. capsulata St. Louis. There were no differences in lipopolysaccharide and peptidoglycan compositions as well as in polypeptide patterns of the cell wall fractions between mutant and wild-type cells. Thus, the lack of a firmly bound capsule inR. capsulata St. Louis RC1^- was the only difference found.     

Polyhydric alcohol production and intracellular amino acid pool in relation to halotolerance of the yeast Debaryomyces hansenii

Changes in polyol production and the intracellular amino acid pool were followed during the growth cycle of Debaryomyces hansenii in 4 mM and 2.7 M NaCl media. The intracellular levels of polyols were markedly enhanced by high salinity, the dominant solutes being glycerol in log phase cells and arabinitol in stationary phase cells. At low salinity arabinitol was the most prominent intracellular solute throughout the growth cycle. There were no major changes in the composition of the total amino acid pool with changes in cultural salinity. The amount of total free amino acids related to cell dry weight was 15–50% lower in cells cultured in 2.7 M NaCl as compared to 4 mM NaCl media.After subtraction of contributions from intracellular polyols the calculated cellular C/N ratio was found to be unaffected by cultural age and salinity during the late log and early stationary phase. On prolonged incubation of stationary phase cells, this ratio decreased, particularly at high salinity. The sensitivity of cells towards exposure to high salinity was measured in terms of the length of the lag phase after transference to 2.7 M NaCl media. This lag phase decreased with increasing intracellular polyol concentrations. At a given polyol content, stationary phase cells were considerably less sensitive than were log phase cells.When cultured at high salinity the mutant strain, 26-2b, grew more slowly and retained less of the total polyol produced during the early growth stages than did the wildtype. Exogenously supplied mannitol, arabinitol, and glycerol stimulated the growth of the mutant in saline media. Erythritol was without effect.Abbreviations GLC gas-liquid chromatography - TCA trichloroacetic acid     

pH variations during growth of Acidithiobacillus thiooxidans in buffered media designed for an assay to evaluate concrete biodeterioration

The pH of two buffered media having their initial pH ranging between 3.5 and 8.5 was monitored during growth of Acidithiobacillus thiooxidans. The first media was buffered with tricyclic phosphate whereas the second one contained phosphate ions and thus exhibited a stronger buffer capacity. Bacterial growth was not observed in any of the two media when the initial pH was higher than 5.5. On the other hand, for initial pH lower than 5.5, bacterial growth induced pH drops in both media. This drop was preceded by a lag phase during which the pH remained unchanged. However, in the medium buffered with phosphate ions, the lag periods were longer. As these media were developed for designing a bioleaching test to evaluate concrete biodeterioration caused by A. thiooxidans, the medium containing tricyclic phosphate appeared to be the most appropriate.     

The capsule and slime polysaccharides of the wild type and a phage resistant mutant ofRhodopseudomonas capsulata St. Louis

A rhamnose, galactose and pyruvic acid containing polysaccharide (capsule) together with the peptidoglycan was isolated fromRhodopseudomonas capsulata St. Louis as the insoluble sediment after sodium dodecyl sulfate extraction of cell envelope fractions. Treatment with pronase E separated the soluble polysaccharide from the insoluble peptidoglycan. After lysozyme-digestion, both the capsule polysaccharide and peptidoglycan were soluble.The capsule was also accumulated in the combined interphase/phenol-phase of hot phenol-water extracts of whole cells. Again, the capsule and peptidoglycan were sedimented together as long as no pronase E-treatment was performed. With the phage-resistant mutant (R. capsulata St. Louis RC1^-), no capsule polysaccharide was obtained in the combined interphase/phenol phase.An acidic polysaccharide (slime) different from the capsule in composition and serology was obtained by Cetavlon fractionation of hot phenol/water extracts of cells of both the wild-type and the mutant cells. It was shown to consist mainly of rhamnose, glucosamine and galacturonic acid.The use of O/K-antisera and of capsule polysaccharideantisera allowed a separate visualization of the capsule and slime layers.This paper is dedicated to Professor Hans G. Schoegel on the occasion of his 60th birthday     

Growth of <Emphasis Type="Italic">E. coli</Emphasis> BL21 in minimal media with different gluconeogenic carbon sources and salt contents

Escherichia coli strain BL21 is commonly used as a host strain for protein expression and purification. For structural analysis, proteins are frequently isotopically labeled with deuterium (²H), ¹³C, or ¹⁵N by growing E. coli cultures in a medium containing the appropriate isotope. When large quantities of fully deuterated proteins are required, E. coli is often grown in minimal media with deuterated succinate or acetate as the carbon source because these are less expensive. Despite the widespread use of BL21, we found no data on the effect of different minimal media and carbon sources on BL21 growth. In this study, we assessed the growth behavior of E. coli BL21 in minimal media with different gluconeogenic carbon sources. Though BL21 grew reasonably well on glycerol and pyruvate, it had a prolonged lag-phase on succinate (20 h), acetate (10 h), and fumarate (20 h), attributed to the physiological adaptation of E. coli cells. Wild-type strain NCM3722 (K12) grew well on all the substrates. We also examined the growth of E. coli BL21 in minimal media that differed in their salt composition but not in their source of carbon. The commonly used M9 medium did not support the optimum growth of E. coli BL21 in minimal medium. The addition of ferrous sulphate to M9 medium (otherwise lacking it) increased the growth rate of E. coli cultures and significantly increased their cell density in the stationary phase. An erratum to this article can be found at     

Contributions of XyIR, CcpA andcre to diauxic growth ofBacillus megaterium and to xylose isomerase expression in the presence of glucose and xylose

Bacillus megaterium shows diauxic growth in minimal medium containing glucose and xylose. We have examined the influence of three elements that regulatexyl operon expression on diauxic growth and expression of axylA-lacZ fusion.xylA is 13-fold repressed during growth on glucose. Induction occurs at the onset of the lag phase after glucose is consumed. Inactivation ofxylR yields a two-fold increase in expression ofxylA on glucose. Deletion of the catabolite responsive element (cre) has a more pronounced effect, reducing glucose repression from 13-fold in the wild type to about 2.5-fold. WhenxylR andcre are inactivated together a residual two-fold repression ofxylA is found. Inactivation ofxylR affects diauxic growth by shortening the lag phase from 70 to 40 min. In-frame deletion ofccpA results in the loss of diauxic growth, an increase in doubling time and simultaneous use of both sugars. In contrast, a strain with an inactivatedcre site inxylA exhibits diauxic growth without an apparent lag phase on glucose and xylose, whereas fructose and xylose are consumed simultaneously.     

Implication of two glutathione S-transferases in the optimal metabolism of m-toluate by Sphingomonas yanoikuyae B1

A putative glutathione S-transferase (GST) gene (bphK) was identified in the meta-cleavage operon for the degradation of m-toluate by Sphingomonas yanoikuyae B1. Disruption of bphK resulted in the loss of GST activity against 1-chloro-2,4-dinitrobenzene and a much increased lag time of the mutant strain MB3 (bphK::Km) following subculture into m-toluate medium. In contrast, an increased lag time was not observed when MB3 was grown on biphenyl or m-xylene and MB3 showed normal growth on m-toluate when complemented with a subclone containing the bphK gene only. Furthermore, an additional GST activity was detected in MB3. The induction timing of this second GST activity coincided with the beginning of the exponential growth phase of MB3 on m-toluate, reached maximal activity within three hours, and then dropped sharply to the basal level. Thus, it is apparent that BphK and/or the second GST are necessary for optimal growth of B1 on m-toluate. This revised version was published online in June 2006 with corrections to the Cover Date.     

Metabolic regulation in Pseudomonas oxalaticus OX1. Diauxic growth on mixtures of oxalate and formate or acetate

Diauxic growth was observed in batch cultures of Pseudomonas oxalaticus when cells were pregrown on acetate and then transferred to mixtures of acetate and oxalate. In the first phase of growth only acetate was utilized. After the exhaustion of acetate from the medium enzymes involved in the metabolism of oxalate were synthesized during a lag phase of 2 h, followed by a second growth phase on oxalate. When the organism was pregrown on oxalate, oxalate utilization from the mixture with acetate completely ceased after a few hours during which acetate became the preferred substrate. Similar observations were made with formate/oxalate mixtures in which formate was the preferred substrate. Until formate was exhausted, it completely suppressed oxalate metabolism, again resulting in diauxic growth. However, when the organism was pregrown on oxalate and then transferred to mixtures of oxalate and formate, both substrates were utilized simultaneously although the initial rate of oxalate utilization from the mixture was strongly reduced as compared to growth on oxalate alone.Since both preferred substrates cross the cytoplasmic membrane by diffusion, whereas oxalate is accumulated by an inducible, active transport system, the effect of acetate and formate on oxalate transport was studied at different external pH values. At pH 5.5 both substrates completely inhibited oxalate transport. However, at pH 7.5, the pH at which the diauxic growth experiments were performed, formate and acetate did not affect oxalate transport. Growth patterns and enzymes profiles suggest that, at higher pH values, formate and acetate possibly affect oxalate utilization via an effect on the internal pool of oxalyl-CoA, the first product of oxalate metabolism.Abbreviations PMS phenazine methosulphate - RuBPCase ribulosebisphosphate carboxylase - DCPIP 2,6-dichlorophenolindophenol - FDH formate dehydrogenase - p.m.f. protonmotive force     

Capsule polysaccharide-protein-peptidoglycan complex in the cell envelope of Rhodobacter capsulatus

The capsule polysaccharide-protein-peptidoglycan complex (insoluble in boiling sodium dodecyl sulfate and hot phenol-water) from cell envelopes of Rhodobacter capsulatus St. Louis was characterized. Hydrofluoric, hydrochloric acid or alkaline hydrolysis solubilized the polysaccharide moiety, whereas the protein-peptidoglycan moiety remained insoluble. On treatment of the protein-peptidoglycan moiety with lysozyme, the protein with peptidoglycan-residues bound was solubilized. It showed a single, broad peptide band (M _r=about 17,000) on sodium dodecyl sulfate polyacrylamide gel-electrophoresis. The same protein was obtained by lysozyme digestion (without preceding hydrofluoric or hydrochloric acid treatment) of the protein-peptidoglycan complex of the phage-resistant mutant Rhodobacter capsulatus St. Louis RC1^-, in which the capsule polysaccharide is present in a free form. A protein-peptidoglycan complex was isolated also from the capsulefree Rhodobacter capsulatus 37b4. Covalent binding between the protein and peptidoglycan moieties is likely for all three strains as is the lipoprotein nature of the protein moiety. The polysaccharide moiety of the complete complex from the wild-type Rhodobacter capsulatus St. Louis was at least partly removable from the complex in the presence of high salt concentrations or ethylene diamine tetraacetate. A specific amino acid pattern (with Ser, Gly, Glu, and Ala dominating) remained constantly associated with the capsule polysaccharide moiety independent of the separation procedure.Abbreviations A₂pm diaminopimelic acid - Cetavlon cetyltrimethyl-ammonium bromide - EDTA ethylene-diaminetetraacetate, disodium salt - HF hydrofluoric acid - HPLC high-performance liquid chromatography - PAGL polyacrylamide gel-electrophoresis - SDS sodium dodecyl sulfate - TCA trichloroacetic acid     

Activities of superoxide dismutase (SOD) isoforms during growth of <Emphasis Type="Italic">Scenedesmus</Emphasis> (chlorophyta) species and strains grown in batch-cultures

Growth of Scenedesmus species and strains, grown for 28 days in mineral BBM medium in batch-cultures, displayed sigmoidal kinetics that comprised a lag, exponential and declining growth phases. Total SOD activity in these autotrophically cultured organisms, which oscillated within 0.6 – 1.4 Umg protein⁻¹, was rather species-specific and only to some extent depended on the growth phase. Contrary, three S. obliquus strains: wild type 276-6, mutant with blocked PS I (strain 56.80) and mutant with blocked PS II (strain 57.80), cultured for 7 days on BBM medium supplemented with bacto-tryptone and yeast extract (BBM+) turned out to be time-dependent and to have several times higher total SOD activity than one obtained for Scenedesmus grown autotrophically. Regardless of the media composition, the phase of growth and studied organism, dominant isoforms of total SOD were together determined Fe- and Mn-SOD. Profiles of SOD isoforms, obtained after PAGE analysis of all autotrophically and exponentially growing organisms, revealed that one Mn-SOD and one Cu/Zn-SOD bands located on gels at the same position whereas location of three bands of Fe-SOD depended on the strain. This suggests the presence of two different groups of Fe-SODs in analyzed organisms. Identical SOD profiles found in two S. armatus strains (276-4a and 276-4d) and S. subspicatus correspond well with their taxonomic position. The SOD profile of S. armatus B1-76 distinctly differed from two other S. armatus strains but was identical to S. microspinal B1-76 and S. quadricauda G-15 despite the fact that there were significant growth rate differences between these three species. SODs profiles of S. acutus 437 and S. obliguus 453 were species-specific. In S. obliquus strains cultured on BBM+ medium, there are four SOD bands: one slightly visible band of Mn-SOD, two intensive bands of Fe-SOD and one band of Cu/Zn-SOD. The above finding suggests that antioxidant response of algae kept in batch-cultures differs according to medium composition and the SOD activity mainly restricted to chloroplasts.     

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.     

Xylose transport studies with xylose-utilizing <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> strains expressing heterologous and homologous permeases

In the present study, we modified xylose uptake properties of a recombinant xylose-utilizing yeast Saccharomyces cerevisiae by expression of heterologous and homologous permease-encoding genes. In a mutant yeast strain with the main seven hexose transporter genes deleted, and engineered for xylose utilization, we screened an expression cDNA library of the filamentous fungus Trichoderma reesei (Hypocrea jecorina) for enhanced growth on xylose plates. One cDNA clone with significant homology to fungal sugar transporters was obtained, but when the clone was retransformed into the host, it did not support significant growth on xylose. However, during a long liquid culture of the strain carrying the cDNA clone, adaptive mutations apparently occurred in the host, which led to growth on xylose but not on glucose. The new transporter homologue, Trxlt1 thus appears to code for a protein specific for xylose uptake. In addition, xylose-transporting properties of some homologous hexose transporters were studied. All of them, i.e., Hxt1, Hxt2, Hxt4, and Hxt7 were capable of xylose uptake. Their affinities for xylose varied, K _m values between 130 and 900 mM were observed. The single-Hxt strains showed a biphasic growth mode on xylose, alike the Trxlt1 harboring strain. The initial, slow growth was followed by a long lag and finally by exponential growth.     

C-NMR analysis of Aspergillus mutants disturbed in pyruvate metabolism

The metabolic consequences of two defects in pyruvate metabolism of the hyphal fungus Aspergillus nidulans have been investigated by natural abundance ¹³C-NMR spectroscopy. A pyruvate dehydrogenase complex (pdh) mutant, grown on acetate, accumulates alanine upon starvation which is derived from mannitol reserves. The -alanine level increases further upon incubation with the non-permissive substrate -glucose. -Glutamate is absent from these spectra as it is required both for the transamination of pyruvate and as a reaction on an impaired energy metabolism in such a pdh-deficient strain. A pyruvate carboxylase (pyc) mutant, grown upon acetate, only starts to accumulate alanine after a long incubation period with -glucose, due to the long-lasting presence of phosphoenolpyruvate carboxykinase and malic enzyme, which are both induced by growth on acetate. When this strain is grown on -fructose and -glutamate, alanine also accumulates within 3 h upon transfer to -glucose.     

Functional characterization of <Emphasis Type="Italic">Chlamydomonas reinhardtii</Emphasis> with alterations in the <Emphasis Type="Italic">atpE</Emphasis> gene

The FUD17 strain of Chlamydomonas reinhardtii is a photosynthesis-deficient, acetate-requiring mutant with a defect in the chloroplast atpE gene, which codes for the ε subunit of the chloroplast ATP synthase. In this work, the FUD17 mutant was examined in relation to other known ATP synthase mutants as an initial step toward using this strain to generate altered versions of the atpE gene for site-directed mutagenesis of the ε subunit. The FUD17 strain grows well and is normally pigmented in the dark (heterotrophic conditions), but cannot grow autotrophically in the light, even when media are supplemented with acetate. Under heterotrophic conditions, it shows no accumulation of the ε subunit, and much lower levels of the α and β subunits of the chloroplast ATP synthase. FUD17 shows no light-dependent oxygen evolution and shows a strong, light-dependent alteration in its chlorophyll fluorescence. These results show that FUD17 possesses similar characteristics to other ATP synthase mutants and fails to express an assembled ATP synthase complex on its thylakoid membrane. A preliminary attempt at site-directed mutagenesis is described which produced a slightly truncated form of the ε subunit, which is expressed normally in the cell. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effect of cyclic 3',5'-adenosine monophosphate on the growth rate of Escherichia coli

Cyclic 3',5'-adenosine monophosphate (cAMP) inhibits the rate of Escherichia coli growth in media with glucose. When the exogenous nucleotide is added, the generation time and the lag phase become longer. These parameters decrease if cAMP is entirely absent from the cya- mutant as compared to the parent cya+ strain. The nucleotide exerts a low activity in media with glycerol. The action of cAMP is highly specific.     

Biomass relationship to growth and phosphate uptake ofPseudomonas fluorescens,Escherichia coli andAcinetobacter radioresistens in mixed liquor medium

The ability ofPseudomonas fluorescens, Escherichia coli andAcinetobacter radioresistenns to remove phosphate during growth was related to the initial biomass as well as to growth stages and bacterial species. Phosphate was removed by these bacteria under favourable conditions as well as under unfavourable conditions of growth. Experiments showed a relationship between a high initial cell density and phosphate uptake. More phosphate was released than removed when low initial cell densities (10²–10⁵ cells ml^–1) were used. At a high initial biomass concentration (10⁸ cells ml^–1), phosphate was removed during the lag phase and during logarthmic growth byP. fluorescens. Escherichia coli. at high initial biomass concentrations (10⁷ cells ml^–1), accumulated most of the phosphate during the first hour of the lag phase and/or during logarithmic growth and in some cases removed a small quantily of phosphate during the stationary growth phase.Acinetobacter radioresistens, at high initial cell densities (10⁶, 10⁷ cells ml^–1) removed most of phosphate during the first hour of the lag phase and some phosphate during the stationary growth phase.Pseudomonas fluorescens removed phosphate more thanA. radioresistens andE. coli with specific average ranges from 3.00–28.50 mg L^–1 compared to average ranges of 4.92–17.14 mg L^–1 forA. radioresistens and to average ranges of 0.50–8.50 mg L^–1 forE. coli.     

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.     

Behaviour ofPropionibacterium shermanii in alkaline medium

Physiological and morphological properties ofPropionibacterium shermanii were estimated in a liquid semisynthetic medium of initial pH between 7 – 10. Prolongation of the lag phase and a shift of the stationary phase occurred at higher initial pH values of the medium, The growth response of the strain depended on the way of glucose addition (either sterilized in the medium or added aseptically after sterilization). At pH 8.5 and higher the cells begin to form slime and capsules. The strain exhibited growth activity even at initial pH values of the medium 11.5.