Comparative study of the elemental composition of vegetative and dormant microbial cells

X-ray microanalysis showed that vegetative cells, viable resting forms, and nonviable forms (micromummies) of the bacteria Bacillus cereus and Micrococcus luteus and the yeast Saccharomyces cerevisiae differ in the contents of bioelements S, P, Ca, and K and the Ca/K and P/S ratios. Viable resting forms (cystlike refractory cells and bacillar endospores) had more calcium and less phosphorus and potassium than vegetative cells, the difference being higher for bacilli than for micrococci and yeasts. The distinctive feature of all viable resting microbial forms was their low P/S ratios and high Ca/K ratios. The differences revealed in the cellular content and ratios of bioelements probably reflect changes in ionic homeostasis accompanying the transition of vegetative microbial cells to the dormant state. Relevant potassium parameters indicate that the membranes of viable resting forms retain their barrier function. At the same time, the nonviable forms, even morphologically intact, of B. cereus and S. cerevisiae exhibited an anomalously low content of potassium, while those of M. luteus had an anomalously high content of this element. This suggests that the cellular membranes of micromummies lose their barrier function, which results in a free diffusion of potassium ions across the membranes. The possibility of using the elemental composition parameters for quick analysis of the physiological state of microorganisms in natural environments is discussed.     

Fine Structure of Mummified Cells of Microorganisms Formed under the Influence of a Chemical Analogue of the Anabiosis Autoinducer

Under the influence of alkyl hydroxybenzene (C₆-AHB) added to cell suspensions at concentrations of (1–5) × 10^–3M, the cells of Saccharomyces cerevisiae, Micrococcus luteus, and Thioalkalivibrio versutusunderwent dramatic changes in the ultrastructural organization of cell membranes, cytoplasm, and inclusions. In yeast suspension, the first changes were observed after 15 min in the structure of pocket-like invaginations in the cytoplasmic membrane (CM): they were shortened and thickened. In the subsequent 30 to 60 min, CM ruptures were formed in the regions devoid of intramembrane protein particles and in the pocket-like invaginations. After 24 h, complete disintegration of the intracellular membrane structures and conglomeration of the ribosomal part of the cytoplasm occurred. Similar changes were observed on the exposure of gram-positive and gram-negative bacteria to AHB. However, the cell wall in all the microorganisms studied was not destroyed, and in Micrococcus luteusit was even thickened. These mummified forms were preserved as morphologically intact but nonviable cells for more than three years of observations. By their ultrastructural characteristics, these mummified forms of microorganisms were similar to the fossilized microorganisms discovered by us in fibrous kerite. The concept of micromummies was formulated. AHB are supposed to play an important role in the process of fossilization of microorganisms in nature.     

Detection of Microorganisms in the Environment and the Preliminary Appraisal of Their Physiological State by X-ray Microanalysis

The paper deals with the X-ray microanalysis of the elemental composition of bacteriomorphic particles in 170000-year-old Antarctic permafrost sediments and in indoor dust. A comparative analysis of the phosphorus, sulfur, calcium, and potassium contents and the Ca/K and P/S ratios in these particles and in reference microbial cells occurring in different physiological states showed that the absence of P and/or S peaks in the X-ray spectrum of an object may indicate that it is abiotic. Resting microbial forms can be revealed on the basis of the following characteristic features: an increased content of Ca, a high Ca/K ratio, and a low P/S ratio. Model experiments with nonviable bacterial and yeast micromummies with alterations in the structural and barrier functions of the cytoplasmic membrane showed that micromummies can be recognized by a superhigh content of a marker element (e.g., P, K, or Si), accumulated due to facilitated diffusion along a deliberately created concentration gradient. Such an analysis of the permafrost sediment and dust made it possible to suggest the presence of mummified cells in these objects. The possibility of using X-ray microanalysis for the detection of microbial cells in natural habitats in order to enhance the efficiency of ecological monitoring of the environment is discussed.     

Detection of microorganisms in the environment and the preliminary appraisal of their physiological state by X-ray microanalysis

The paper deals with the X-ray microanalysis of the elemental composition of bacteriomorphic particles in 170,000-year old Antarctic permafrost sediments and in indoor dust. A comparative analysis of the phosphorus, sulfur, calcium, and potassium contents and the Ca/K and P/S ratios in these particles and in reference microbial cells occurring in different physiological states showed that the absence of P and/or S peaks in the X-ray spectrum of an object may indicate that it is abiotic. Resting microbial forms can be revealed on the basis of the following characteristic features: an increased content of Ca, a high Ca/K ratio, and a low P/S ratio. Model experiments with nonviable bacterial and yeast micromummies with alterations in the structural and barrier functions of the cytoplasmic membrane showed that micromummies can be recognized by a super-high content of a marker element (e.g., P, K, or Si), accumulated due to facilitated diffusion along the deliberately created concentration gradient. Such an analysis of the permafrost sediment and dust made it possible to suggest the presence of mummified cells in these objects. The possibility of using X-ray microanalysis for the detection of microbial cells in natural habitats in order to enhance the efficiency of ecological monitoring of the environment is discussed.     

Effective PCR detection of vegetative and dormant bacterial cells due to a unified method for preparation of template DNA encased within cell envelopes

The unified method of template preparation for PCR in the form of DNA covered by permeabilized cell envelopes was used for the cells of different physiological status (vegetative, dormant forms of different types, and nonviable micromummies). The procedure for the preparation of template DNA included one-stage (boiling in a buffer with chaotropic salts) or two-stage (boiling in a buffer with chaotropic salts followed by treatment with proteinase K) sample preparation. The proposed method proved effective for detection of not only vegetative cells but also of the bacillary spores and the cystlike dormant cells (CLC) of non-spore-forming bacteria. For example, the two-stage sample preparation of Bacillus cereus spores resulted in the PCR sensitivity increase up to the detection level of 3–30 spores per sample; the one-stage sample preparation was three orders of magnitude less efficient (10₄ spores per sample). An increase in the sensitivity of PCR detection (4–10-fold) owing to the use of the two-stage sample preparation was shown for bacillary, staphylococcal, and mycobacterial CLC. The possibility of PCR detection of staphylococcal micromummies with irreversibly lost viability, which were therefore undetectable by plating techniques, was also demonstrated. The application of the unified sample preparation method ensuring efficacious PCR detection of bacterial cells, irrespective of their physiological state, may be a promising approach to more complete detection of microbial diversity and the overall insemination of natural substrates.     

Development of starter culture for improved processing of Lafun,an African fermented cassava food product

Aims: To select appropriate micro‐organisms to be used as starter culture for reliable and reproducible fermentation of Lafun. Methods and Results: A total of 22 cultures consisting of yeast, lactic acid bacteria (LAB) and Bacillus cereus strains predominant in traditionally fermented cassava during Lafun processing were tested as potential starter cultures. In an initial screening, Saccharomyces cerevisiae 2Y48P22, Lactobacillus fermentum 2L48P21, Lactobacillus plantarum 1L48P35 and B. cereus 2B24P31 were found to be the most promising of the cultures and were subsequently tested in different combinations as mixed starter cultures to ferment submerged cassava roots. Saccharomyces cerevisiae, inoculated singly or combined with B. cereus, gave the softest cassava root after 48 h of fermentation according to determination of compression profile and stress at fracture. Overall, sensory quality testing showed that Lafun obtained from S. cerevisiae‐fermented cassava gave the most preferred stiff porridge. Saccharomyces cerevisiae 2Y48P22 showed pectinase production in a model system. Conclusions: The results suggest that S. cerevisiae 2Y48P22 is the most efficient organism for cassava softening during the fermentation. Therefore, it could be combined with LAB and used as starter for Lafun processing. Significance and Impact of the Study: Starter cultures are made available for controlled fermentation of Lafun.     

Mycoplasma adaptation to stress factors: Nucleotide sequences absent in vegetative forms of <Emphasis Type="Italic">Mycoplasma gallisepticum</Emphasis> S6 cells are found in nonculturable forms

The adaptation of Mycoplasma gallisepticum S6 to adverse environmental conditions is associated with the transformation of vegetative cell forms to viable but nonculturable (VBNC) forms. The vegetative and VBNC forms proved to differ in the spectrum of PCR products amplified from pvpA-gene, which codes for the phase-variable cytoadhesion protein. The vegetative forms displayed only one amplicon, which contained one open reading frame (1086 bp) with a high homology (97%) to pvpA-gene of M. gallisepticum R and Pendik. The VBNC forms of M. gallisepticum S6 had additional amplicons, whose open reading frames were absent from the complete database sequence of the mycoplasma genome. A high nucleotide sequence homology (54–55%) between pvpA-gene and the additional pvpA-gene amplicons made it possible to suggest that pvpA-gene provided a source for the formation of new regions within the mycoplasma genome during adaptation to adverse environmental conditions.     

Fidelity of conjugation in Saccharomyces cerevisiae.

Summary An efficient method for the production of synchronous zygotes in Saccharomyces cerevisiae is described. Cells were synchronised under defined conditions in either an a, mixed culture or by incubation of each mating type in cell-free medium in which cells of the opposite mating type had been grown. Synchronised cells were allowed to fuse under defined conditions on filter membranes. This method was used to test the fidelity of conjugation in S. cerevisiae. Under conditions where cells of a or mating type were in contact with up to 6 cells of each of two strains of opposite mating type, less than 1 multiple mating in 10⁴ diploid matings occurred. It is concluded that in sexual conjugation in S. cerevisiae some process distinct from cell contact restricts cell fusion to paired combinations of conjugant cells.     

RESTING CELLS OF PEDIASTRUM

Davis , Joseph S. (Southern Illinois U., Edwardsville.) Resting cells of Pediastrum. Amer. Jour. Bot. 49(5): 478–481. Illus. 1962.—After approximately 10 weeks in a partially defined mineral medium, cells of vegetative colonies of Pediastrum boryanum lost their chlorophyll and became orange resting cells. The resting cells were colored orange by carotenoid pigment dissolved in fat droplets within the cells. No cell wall thickening occurred during or after resting-cell formation. Starch was abundant in the resting cells. Dried resting cells remained viable for at least 4 years. When placed in the culture medium, 4-year-old dried resting cells became green and reproduced like vegetative cells.     

Inositol deficiency in yeast: metabolic,enzymatic and autoradiographic studies

The addition of inositol to starved cells of Saccharomyces cerevisiae NCYC 86 resulted in an initiation of growth. Inositol was incorporated into phosphatidylinositol and after a lag period RNA was the first macromolecule with a rate of synthesis departing from the rate observed in deprived cells. Pulse chase experiments showed that inositol was first incorporated into phosphatidylinositol and later into more polar lipids. Finally it appeared to be excreted into the surrounding medium. When S. cerevisiae NCYC 86 was grown in suboptimal concentrations of inositol (0,5 g/ml), alterations in the level of some membrane-bound enzymatic activities were detected; these might reflect structural modifications of the cellular membranes due to a different composition of phospholipids.High-resolution autoradiography showed that inositol was probably first incorporated into internal membranes and later transferred to the plasma membrane. Analytical experiments carried out with inositol-deprived cells showed that inositol was released into the surrounding medium in that case.The unbalanced growth detected in S. cerevisiae NCYC 86 under inositol deprivation might be due to an abnormal functioning of the cell membranes as a consequence of the deficiency in inositol-containing phospholipids.     

The toxicological spectrum of the Bacillus cereus toxin cereulide points towards niche-specific specialisation

Most microbes share their environmental niches with very different forms of life thereby engaging in specialised relationships to enable their persistence. The bacterium Bacillus cereus occurs ubiquitously in the environment with certain strain backgrounds causing foodborne and opportunistic infections in humans. The emetic lineage of B. cereus is capable of producing the toxin cereulide, which evokes emetic illnesses. Although food products favouring the accumulation of cereulide are known, the ecological role of cereulide and the environmental niche of emetic B. cereus remain elusive. To better understand the ecology of cereulide-producing B. cereus, we systematically assayed the toxicological spectrum of cereulide on a variety of organisms belonging to different kingdoms. As cereulide is a potassium ionophore, we further tested the effect of environmental potassium levels on the action of cereulide. We found that adverse effects of cereulide exposure are species-specific, which can be exacerbated with increased environmental potassium. Additionally, we demonstrate that cereulide is produced within an insect cadaver indicating its potential ecological function for a saprophytic lifestyle. Collectively, distinct cereulide susceptibilities of other organisms may reflect its role in enabling competitive niche specialization of emetic B . cereus.     

Characterization of Ribosomes from Dormant Spores of Bacillus cereus

Characterization of ribosomes from dormant spores and vegetative cells of Bacillus cereus strain T has been carried out. Polyuridylic acid binding activity, ribonuclease activity associated with ribosomes, thermal denaturation profile, and sedimentation coefficients are essentially identical for both ribosomal preparations. However, ribosomal protein content of dormant spore ribosomes is about 70% of that of vegetative ribosomes. Polyacrylamide gel electrophoresis of ribosomal proteins shows that some ribosomal proteins are missing from dormant spore ribosomes. Sucrose density gradient centrifugation of ribosomes shows the existence of defective ribosomal subunits, in addition to 30S and 50S subunits, in dormant spore ribosomes. These results indicate that the ribosomes from dormant spores are distinctively different from those of vegetative cells.     

Toxicity and accumulation of thallium in bacteria and yeast

Thallium sulphate inhibited microbial growth, withBacillus megaterium KM, more sensitive to the metal thanSaccharomyces cerevisiae andEscherichia coli. Inhibition ofB. megaterium KM andS. cerevisiae, but not ofE. coli, was alleviated by increasing the potassium concentration of the medium; inhibition of respiration ofS. cerevisiae, but not ofE. coli, was similarly alleviated. Thallium was rapidly bound, presumably to cell surfaces, byS. cerevisiae andE. coli, and was progressively accumulated by energy-dependent transport systems (probably concerned primarily with potassium uptake) with both organisms. Thallium uptake kinetics suggested more than one transport system operated in yeast, possibly reflecting a multiplicity of potassium transport systems. ApparentK _m andK _i values for competitive inhibition of thallium uptake by potassium indicatedS. cerevisiae to have a higher affinity for thallium uptake than for potassium, whileE. coli had a transport system with a higher affinity for potassium than for thallium. The likely systems for thallium transport are discussed. A mutant ofE. coli with tenfold decreased sensitivity to thallium was isolated and apparently effected surface binding of thallium in amounts equivalent to the wild type organism, but showed no subsequent uptake and accumulation of the metal from buffer, even though it was able to accumulate potassium to normal intracellular concentrations during growth. Abbreviations: Metal are referred to by their recognised atomic symbols (e.g. TI = Thallium; K = potassium; Co = cobalt)     

Obtaining and characterization of DNA-containing micromummies of yeasts and gram-positive bacteria with enhanced cell wall permeability: Application in PCR

The procedure of obtaining DNA-containing cell envelopes (“micromummies”) of bacteria, yeasts, and fungi using chaotropic salts has been developed previously and the possibility of their direct application in PCR has been demonstrated. The fine structure of micromummies has been studied by electron microscopic methods. This work has demonstrated that additional treatment of micromummies of yeasts and gram-positive bacteria with proteinase K results in hydrolytic degradation of cell proteins and drastic enhancement of cell wall permeability for macromolecules (DNA). Thus, the efficiency of PCR ex situ using resultant micromummies after washing off the products of protein hydrolysis and proteinase K can be increased. The results of electron microscopic study of ultrathin sections of yeasts (Pichia pastoris, Saccharomyces cerevisiae) and gram-positive bacteria (Micrococcus luteus, Arthrobacter globiformis, Bacillus subtilis) support the biochemical data that treatment with chaotropic salts and proteinase K results in the loosening of microbial cell walls and in a decrease in the intracellular protein content. At the same time, cell walls generally maintain their integrity (continuity) and initial spherical or rodlike shape. The optimal modes of treatment of the cells of different microbial species with chaotropic salts and proteinase K have been selected to obtain permeabilized cell envelopes containing denatured or native DNA.     

Correlation between potassium and phosphorus content and their nonuniform distribution in Acanthamoeba castellanii

Summary Biologically important elements: K, Na, Mg, Ca, Cl, P, and S were analyzed in Acanthamoeba castellanii. A higher potassium content, as compared with other cations, was detected. Total content of the cation-forming elements: K, Na, Mg, and Ca was ca. 360 mmoles/kg dry weight of the cells. Phosphorus content was estimated as 492 mmoles/kg dry weight. Content of chlorine, a basic cellular anion, was 173 mmoles/kg dry weight. The low level of chlorine appears not the be sufficient to balance all the cations in Acanthamoeba.Distribution of potassium in Acanthamoeba cells was nonuniform and similar to that of phosphorus as shown by X-ray microanalysis technique. Quantitative correlation between phosphorus and potassium as well as the similar distribution of these elements suggests that in Acanthamoeba phosphorus is an essential anion which, being nonuniformly distributed in the cell, determines also a nonuniform distribution of potassium.     

Synthesis and investigation of antimicrobial activity of 8-hydroxyquinoline glucosaminides

Synthesis of the fully acetylated 8-hydroxyquinoline O-??-D-glucosaminides and its 2-methyl- and 5-chloro-derivatives was conducted in the phase transfer catalytic system of solid potassium carbonateanhydrous acetonitrile. The respective triols were obtained by deacetylation according to Zemplen. The structure of all synthesized compounds was proven by ¹H NMR spectroscopy. Antimicrobial activity of the non-protected glycosides was investigated using the luminescence inhibition test with marine luminous bacteria Vibrio fischeri F1 as well as by the serial dilution method with Escherichia coli, Agrobacterium tumefaciens, Bacillus cereus, and Micrococcus luteus strains from culture collection. It was found that the coupling of N-acetyl-??-D-glucosamidine residue decreased antimicrobial activity in comparison with non-glycosylated forms of quinoline.     

A comparative study of the lipid composition of yeasts with different fermentative capacities

Summary The lipid composition of a classical yeast and a poor fermenter, at low and high sugar concentrations, was compared. Polyunsaturated fatty acids (18:2, 18:3) were found in the osmotolerant weak fermenter, Saccharomyces mellis, their content decreasing with an increase of glucose levels, while the highly fermenting yeast S. cerevisiae had no polyunsaturated fatty acids at all sugar concentrations examined. Also total unsaturation of fatty acids ( mol^–1) was significantly higher with S. mellis. The sterol content varied considerably, being higher with the highly fermenting yeasts and low with S. mellis and the film yeast Pichia sp. The ratio of free sterols/phospholipids was high in S. cerevisiae (1:7) and low in S. mellis (1:177). Hybrid yeasts (S. cerevisiaexS. mellis) which were the best fermenting organisms in our study, also showed a high ratio of free sterols/phospholipids (1:6–1:8). A correlation between the fermentative capacity of yeasts and the fluidity of their membranes is suggested.     

Effects of Pichia kluyveri killer toxin on sensitive cells

The killer toxin produced by Pichia kluyveri 1002 kills yeast strains of the genera Candida, Saccharomyces and Torulopsis, including several S. cerevisiae killer strains.Binding of a lethal amount of the toxin to cells of S. cerevisiae SCF 1717 occurs rapidly after toxin addition. After treatment with the toxin for 10 min sensitive cells partially recovered when incubated under conditions that favor protein synthesis. Only after a lag time of 50–90 min sensitive cells changed physiologically. Killing of sensitive cells was characterized by leakage of potassium and adenosine 5-triphosphate, decrease of intracellular pH, and inhibition of the active uptake of amino acids. These effects coincided with cell shrinkage and varied with incubation conditions.Uptake of the amino acid leucine in sensitive cells involved two apparently distinct transport systems (K_m1=0.04mm; K_m2=0.46mm). The toxin showed different effects on these transport systems.     

Viability and formation of conjugated dienes in plasma membrane lipids of Saccharomyces cerevisiae,Schizosaccharomyces pombe,Rhodotorula glutinis and Candida albicans exposed to hydrophilic,amphiphilic and hydrophobic pro-oxidants

Effects of four lipid peroxidation-inducing pro-oxidants-amphiphilictert-butyl hydroperoxide (TBHP), hydrophobic 1,1′-azobis(4-cyclohexanecarbonitrile) (ACHN), hydrophilic Fe¹¹ and 2,2′-azobis(2-amidinopropane) dihydrochloride (AAPH)-on cell growth and on generation of peroxidation products in isolated plasma membrane lipids were determined in four yeast species (S. cerevisiae, S. pombe, R. glutinis andC. albicans) differing in their plasma membrane lipid composition. TBHP and ACHN inhibited cell growth most strongly, Fe¹¹ and AAPH exerted inhibitory action for about 2 h, with subsequent cell growth resumption.S. cerevisiae strain SP4 was doped during growth with unsaturated linoleic (18∶2) and linolenic (18∶3) acids to change its resistance to lipid peroxidation. Its plasma membranes then contained some 30% of these acids as compared with some 1.3% of 18∶2 acid found in undopedS. cerevisiae, while the content of (16∶1) and (18∶1) acids was lower than in undopedS. cerevisiae. The presence of linoleic and linolenic acids inS. cerevisiae cells lowered cell survival and increased the sensitivity to pro-oxidants. Peroxidationgenerated conjugated dienes (CD) were measured in pure TBHP- and ACHN-exposed fatty acids used as standards. The CD level depended on the extent of unsaturation and the pro-oxidant used. The TBHP-induced CD production in a mixture of oleic acid and its ester was somewhat lower than in free acid and ester alone. In lipids isolated from the yeast plasma membranes, the CD production was time-dependent and decreased after a 5–15-min pro-oxidant exposure. ACHN was less active than TBHP. The most oxidizable were lipids fromS. cerevisiae plasma membranes doped with linoleic and linolenic acids and fromC. albicans with indigenous linolenic acid.