Effect of super high magnetic field on lysogenic lambda phage with a temperature sensitive repressor

Summary Escherichia coli where bacteriophage was lysogenic was grown under the super high magnetic field (11.7 Tesla) and the effect of the field on the transition from lysogenic to lytic process of the phase was investigated. The occurrence of phage particles due to induction of phage was stimulated under 11.7 T in comparison with that in geomagnetic field by raising temperature from 30 to 45°C. Especially at 35°C, the phase titer was tenfold larger. No significant effect of the field on the phase particleper se was observed. A potential application of high magnetic strength as a controlling factor ofin vivo switching was implied.     

Adhering ability of <Emphasis Type="Italic">Stenotrophomonas maltophilia</Emphasis> is dependent on growth conditions

The growth conditions are known to influence the bacterial adhesion to different kinds of surfaces. In the present study the adhering ability of S. maltophilia, on growth in nutrient rich media (Tryptic Soy Broth (TSB)) and minimal media (Luria Bertani (LB)) was checked by viable cell count and spectrophotometric method. TSB grown S. maltophilia showed higher adhesion compared to bacteria grown in LB broth, to both biotic and abiotic surfaces. However, when bacteria were grown in LB broth supplemented with different concentrations of glucose, under aerobic conditions, the bacteria grown at lower glucose concentration (2 gm/l) showed maximumadhesion to abiotic surfaces (polystyrene microliter plate) compared to biotic surfaces (mouse trachea, mouse tracheal mucus and HEp-2 cells line). Maximum adhesion to biotic surfaces was seen with cells grown at 4 gm/l of glucose concentration. On the contrary if the cell was grown under microaerophilic conditions maximum adhesion to abiotic and biotic surfaces was achieved with bacteria grown at 1 gm/l and 2 gm/l of glucose concentration respectively. A negative correlation was observed between glucose concentrations and pH of media, the latter declined faster under microaerophilic conditions as compared to aerobic condition.     

Electron Microscopic Examination of Factors Influencing the Expression of Filamentous Surface Structures on Clinical and Environmental Isolates of Aeromonas veronii biotype sobria

Strains of Aeromonas veronii biotype sobria isolated from clinical and environmental sources were examined for their expression of surface structures under a variety of culture conditions. When grown on solid media at 37 C, more than 95% of bacteria from the majority of strains isolated from human diarrheal feces and chicken carcasses were non-piliated or expressed only a few pili of long, flexible morphology per cell. Strains isolated from water or other foods were much more likely to express pili. Heavily piliated strains (all sources) possessed pili of several morphological types, including long, flexible pili of varying widths and rigid pili of varying lengths. Expression of pili was favored by growth at temperatures ca. 20 C and below and growth in liquid medium. Most fecal strains expressed some pili under these conditions. In addition, other surface structures (fibrillar aggregates, fibrillar networks, bundle-forming pili) were seen on some strains from most sources. These were also seen most frequently when bacteria were grown in liquid media at temperatures ca. 20 C and below. Pili expression was not dramatically influenced by growth under anaerobic conditions, or in iron-depleted media, or by combinations of the above conditions. The role of the above surface structures in Aeromonas pathogenicity remains to be elucidated.     

Chemotactic factor(s) ofNeisseria gonorrhoeae

When grown in defined media, 15 of 21 laboratory and clinical strains ofNeisseria gonorrhoeae produced one or more factors (cytotaxins) chemotactic for human polymorphonuclear leukocytes obtained from normal individuals. Production of the cytotaxin(s) depended upon the media in which the bacteria were grown and the growth phase of the cultures, as well as upon the strain of gonococcus.     

Influence of culture medium of the fatty-acid profile in enteric bacteria.

Enteric bacteria having a high content of cyclopropane fatty acids steeply increase their synthesis when grown on insufficiently propitious culture media (meat-peptone agar or modified Drobot'ko synthetic medium) as compared with bacteria grown under more favourable conditions (meat-peptone broth). Simultaneously, a decrease in monounsaturated fatty acids and increase in palmitic acid are observed. One of the main factors underlying the change in the proportion of fatty acids in bacteria grown on synthetic medium is an increase in medium pH in the process of their growth. Enteric bacteria containing minute amounts/or not containing cyclopropane fatty acids at all (under the experimental conditions used) change their fatty-acid profile little if the culture medium is changed. When grown under insufficiently favourable conditions, these bacteria mainly display an enhanced content of palmitic acid and a lowered content of octadacenoic acid as compared with bacteria grown under more favourable conditions. Of the culture media used, meat-peptone broth, which affords the most favourable conditions for eneteric bacteria growth, is the most suitable medium for obtaining data of taxonomic value.     

Effects of Hypomagnetic Field on Magnetosome Formation of Magnetospirillum Magneticum AMB-1

Magnetotactic bacteria synthesize intracellular magnetic particles, magnetosomes, which arrange in chain(s) and confer on cell a magnetic dipolar moment. To explore the function of geomagnetic field to magnetotactic bacteria, the effects of hypomagnetic field on magnetosome formation in Magnetospirillum magneticum AMB-1 were studied. Cells were cultivated in a specially designed device where geomagnetic field was reduced by about 100-fold to less than 500nT. AMB-1 cultures were incubated in hypomagnetic field or geomagnetic field. Results showed that hypomagnetic field had no significant effects on the average number of magnetic particles per bacterium and bacterial iron depletion. However, the growth (OD) of cell at stationary-phase was lower and cellular magnetism (R _mag) at exponential growth phase was higher than that of bacteria cultivated in geomagnetic field. Statistic results on transmission electron microscopy (TEM) micrographs showed that the average size of magnetic particles in AMB-1 cells in hypomagnetic field group was larger than that of in geomagnetic field group and more ratio of larger-size magnetic particles (>50 nm) was observed when cultivated 16 h under hypomagnetic field. Furthermore, the influences of hypomagnetic field on gene expression were studied in AMB-1 cells. Quantitative RT-PCR results showed that hypomagnetic field up-regulated mms13, down-regulated mms6 and had no effect on magA. Together, the results showed that hypomagnetic field could affect the growth of AMB-1 at the stationary-phase, the crystallization process of magnetosomes, and mms13, mms6 expressions. In addition, our results suggested that the geomagnetic field plays an important role in the biomineralization of magnetosomes.     

Effects of static magnetic field on magnetosome formation and expression of mamA,mms13, mms6 and magA in Magnetospirillum magneticum AMB‐1

Magnetotactic bacteria produce nanometer‐size intracellular magnetic crystals. The superior crystalline and magnetic properties of magnetosomes have been attracting much interest in medical applications. To investigate effects of intense static magnetic field on magnetosome formation in Magnetospirillum magneticum AMB‐1, cultures inoculated with either magnetic or non‐magnetic pre‐cultures were incubated under 0.2 T static magnetic field or geomagnetic field. The results showed that static magnetic field could impair the cellular growth and raise C_mag values of the cultures, which means that the percentage of magnetosome‐containing bacteria was increased. Static magnetic field exposure also caused an increased number of magnetic particles per cell, which could contribute to the increased cellular magnetism. The iron depletion in medium was slightly increased after static magnetic field exposure. The linearity of magnetosome chain was also affected by static magnetic field. Moreover, the applied intense magnetic field up‐regulated mamA, mms13, magA expression when cultures were inoculated with magnetic cells, and mms13 expression in cultures inoculated with non‐magnetic cells. The results implied that the interaction of the magnetic field created by magnetosomes in AMB‐1 was affected by the imposed magnetic field. The applied static magnetic field could affect the formation of magnetic crystals and the arrangement of the neighboring magnetosome. Bioelectromagnetics 30:313–321, 2009. © 2009 Wiley‐Liss, Inc.     

Experimental study on the growth of Salmonella and coli-aerogenes bacteria in pure and mixed cultures,in a fermentor,in two different enrichment media: Sodium selenite and tetrathionate broth

Summary Different serotypes of Salmonella and coli-aerogenes bacteria were grown in a fermentor at +43°C. The Culture media used were composed of two different nutrient broths, one supplemented with sodium selenite, the other with potassium tetrathionate. The growth of both bacteria and the following types of mixed bacteria was studied: Escherichia coli-Salmonella brancaster and Klebsiella pneumoniae-Salmonella brancaster. During the first 10 h of incubation, sodium tetrathionate broth inhibited the multiplication of coli-aerogenes bacteria. Similar results were obtained when these bacteria were grown with S. brancaster and incubated for 18 h, regardless of the original concentration of each of the bacteria. In the presence of sodium selenite, after 18 h of incubation growth was inhibited in E. coli, but not in the other coli-aerogenes bacteria.     

Efficacy of formulation and storage on rice straw waste on the activation of bioagents against root-rot diseases of bean plants

Trichoderma harzianum and Trichoderma viride, which were grown on modified media of rice straw waste, were used as suitable natural media for determining the population of the bioagents and stimulating the production of antimicrobial substances, i.e. toxins, enzymes at different periods (1, 2, 3, 4, 5 and 6 weeks). Also, the evaluation of synergistic effect between biocontrol fungi and bacteria may play a key role in the natural process of biocontrol. Synergism can occur when different agents are applied together and cell wall degrading enzymes produced by fungi can increase the efficacy of bacteria. The evaluation of the bioagents formulated on rice straw waste has influenced the percentage of infection of root rot on bean plants under green house and field conditions. The formulation of the Trichoderma spp. to reduce the incidence of the diseases caused by soil-borne fungi in the field has great importance in the biocontrol of the diseases. This work was aimed to determine and improve the efficacy of application and formulation of Trichoderma spp. on the rice straw waste against root-rot disease of bean under green house and field conditions.     

Adhering ability of Stenotrophomonas maltophilia is dependent on growth conditions

The growth conditions are known to influence the bacterial adhesion to different kinds of surfaces. In the present study the adhering ability of Stenotrophomonas maltophilia, on growth in nutrient rich media (Tryptic Soy Broth (TSB)) and minimal media (Luria Bertani (LB)) was checked by viable cell count and spectrophotometric method. TSB grown S. maltophilia showed higher adhesion compared to bacteria grown in LB broth, to both biotic and abiotic surfaces. However, when bacteria were grown in LB broth supplemented with different concentrations of glucose, under aerobic conditions, the bacteria grown at lower glucose concentration (2 gm/l) showed maximum adhesion to abiotic surfaces (polystyrene microtiter plate) compared to biotic surfaces (mouse trachea, mouse tracheal mucus and HEp-2 cells line). Maximum adhesion to biotic surfaces was seen with cells grown at 4 gm/l of glucose concentration. On the contrary if the cell was grown under microaerophilic conditions maximum adhesion to abiotic and biotic surfaces was achieved with bacteria grown at 1 gm/l and 2 gm/l of glucose concentration respectively. A negative correlation was observed between glucose concentrations and pH of media, the latter declined faster under microaerophilic conditions as compared to aerobic condition.     

Influence of sugars and light on rhizosecretion of α-glucosidase and acid phosphatase during micropropagation of potato

The effects of carbohydrate supply and light on rhizosecretion during micropropagation of potato plantlets (Solanum tuberosum L., cv. ‘Iwa’) in liquid medium were investigated. Soluble protein content was higher in the spent medium for plantlets grown under light conditions than in the dark. For those plantlets grown under light conditions and on different sugar-supplemented media, they rhizosecreted the highest amount of soluble protein when grown in the presence of maltose, while they rhizosecreted the lowest amount of soluble protein when grown on medium containing glucose. Moreover, plantlets grown under light and on a medium containing sucrose were the most vigorous, and exhibited the highest levels of rhizosecreted acid phosphatase activity. However, there was no direct relationship between plantlet growth and rhizosecretion. When plantlets were grown in the dark and on medium containing maltose, a higher α-glucosidase activity was detected than those grown on medium containing sucrose. These results suggested that rhizosecretion of certain proteins from plantlets grown in vitro might not require exposure to light conditions.     

Phosphonate catabolism by <Emphasis Type="Italic">Campylobacter</Emphasis> spp.

The catabolism of phosphonates (Phn) by Campylobacter spp. was investigated employing nuclear magnetic resonance spectroscopy and cell culture techniques. The bacteria were capable of cleaving the Phn bonds of different compounds, including -aminomethylphosphonate, phosphonoacetate and phenylphosphonate (PhePhn). The kinetic parameters of these activities were determined in vivo in intact cells and in situ in whole-cell lysates. Cleavage of Phn-bearing compounds was associated with the cell-wall and cytosolic fractions. Results from substrate competition experiments suggested that at least two enzyme activities appeared to be involved in the cleavage of carbon–phosphate (C–P) bonds. In silico analyses indicated that no genes orthologous to those encoding C–P bond-cleaving enzymes in other bacteria were present in the Campylobacter jejuni genome. In most bacteria studied, Phn catabolism is induced under conditions of phosphate limitation; however, in Campylobacter spp. these activities were expressed in cells grown in media rich in phosphate. In chemically defined media, PhePhn supported bacterial growth and proliferation at concentrations above 100 M in the absence of phosphate. Thus, Phn utilisation may be a survival mechanism of Campylobacter spp. in milieux lacking sufficient phosphate. The expression of these enzyme activities in media abundant in phosphate suggested also that they may have other physiological roles.     

The Effect of the Cultivation Method and the Growth Phase on the Lipopolysaccharide Composition of Yersinia pseudotuberculosis

Effects of the cultivation method (suspension cultures in a liquid nutrient broth or colonies on a solid agarized medium) and the growth phase on the lipopolysaccharide (LPS) composition of Yersinia pseudotuberculosis(O : Ib serovar, strain KS 3058) grown in cold (5°C) were studied. The amount of the LPS synthesized by cells depended on the bacteria growth phase for both media. The LPS acylation degree was constant, whereas the length of the O-specific polysaccharide chain varied with the culture age and for both media achieved maximum in the stationary growth phase. The bacteria cultivation on the nutrient agar stimulated more intensive synthesis of LPS, which were extracted more easily, had longer polysaccharide O-chains, and were more toxic than LPS of the bacteria cultivated in the liquid medium. It was proposed that the cultivation of Yersinia pseudotuberculosisin cold as colonies on the agar surface increases the bacterial virulence.     

Growth of wildtype and mutant E. coli strains in minimal media for optimal production of nucleic acids for preparing labeled nucleotides

Since RNAs lie at the center of most cellular processes, there is a need for synthesizing large amounts of RNAs made from stable isotope-labeled nucleotides to advance the study of their structure and dynamics by nuclear magnetic resonance (NMR) spectroscopy. A particularly effective means of obtaining labeled nucleotides is to harvest these nucleotides from bacteria grown in defined minimal media supplemented with ¹⁵NH₄Cl and various carbon sources. Given the high cost of carbon precursors required for labeling nucleic acids for NMR studies, it becomes important to evaluate the optimal growth for commonly used strains under standard minimal media conditions. Such information is lacking. In this study, we characterize the growth for Escherichia coli strains K12, K10zwf, and DL323 in three minimal media with isotopic-labeled carbon sources of acetate, glycerol, and glycerol combined with formate. Of the three media, the LeMaster-Richards and the Studier media outperform the commonly used M9 media and both support optimal growth of E. coli for the production of nucleotides. However, the growth of all three E. coli strains in acetate is reduced almost twofold compared to growth in glycerol. Analysis of the metabolic pathway and previous gene array studies help to explain this differential growth in glycerol and acetate. These studies should benefit efforts to make selective ¹³C-¹⁵N isotopic-labeled nucleotides for synthesizing biologically important RNAs.     

Magnetosensitivity of <Emphasis Type="Italic">E. coli</Emphasis> Bacteria in the Presence of Zinc Isotopes

The combined effect of the zinc magnetic isotope ⁶⁷Zn and weak magnetic field 25–35 mT causes a 2–4-fold increase in the colony-forming ability of bacteria E. coli in comparison with the nonmagnetic isotopes ^{64, 66}Zn. The effects of magnetic field in the range of 2.2–8 mT were detected for all bacteria regardless of the zinc-isotope enrichment of the media. This indicates the sensitivity of intracellular processes to weak magnetic fields. An increase in the ATP concentration in E. coli cells was only detected for the bacteria grown on the medium with the magnetic zinc isotope in the range of 2.2–4.2 mT. The obtained data confirm the existence of stages of intracellular enzymatic processes that are sensitive to magnetic fields and magnetic moments of atomic nuclei.     

Alteration of the growth rate and lag time of Leuconostoc mesenteroides NRRL-B523.

Bacterial profile modification is an important enhanced oil recovery technique used to direct injected water into a reservoir's low permeability zone containing trapped crude oil. During water flooding, the use of bacteria to plug the high permeability water zone and divert flow into the oil-bearing low-permeability zone will have a significant economic impact. However, during the field implementation of bacterial profile modification, the rapid growth of bacteria near the injection well bore may hinder the subsequent injection of growth media so that profile modification of the reservoir occurs only in the immediate vicinity of the well bore. By slowing the growth rate and prolonging the lag phase, the onset of pore-space plugging may be delayed and the biologically active zone extended deep into the reservoir. High substrate loading, high pH values, and the addition of the growth inhibitors sodium dodecylsulfate and sodium benzoate have been used in combination to alter the growth characteristics of Leuconostoc mesenteroides NRRL-B523 grown in batch conditions. The highest sucrose concentration used in these studies, 500 g/L, produced lag times 12-fold greater than the slowest lag times achieved at low sucrose concentrations. When L. mesenteroides was grown in media containing 500 g/L sucrose, an alkaline pH value threshold was found above which bacteria did not grow. At this threshold pH value of 8.1, an average lag time of 200 h was observed. Increasing the concentration of sodium benzoate had no effect on lag time, but reduced the growth rate until the threshold concentration of 0.6%, above which bacteria did not grow. Last, it was found that a solution of 0.075 mM sodium dodecylsulfate in media containing 15 g/L sucrose completely inhibited bacterial growth.     

Isolation and Identification of a New Analogue of Aspergillic Acid Derived from Valine and Isoleucine

The biological activities of zinc and cadmium on Euglena gracilis grown in zinc deficient and sufficient media were examined- Cadmium was neither involved in the normal cell metabolism of E. gracilis under zinc deficient conditions, nor did not replace zinc, which is essential for the normal growth. More cadmium was incorporated into cells grown in zinc deficient media than in zinc sufficient ones, resulting in more toxic effects in zinc deficient media than in zinc sufficient ones. Cadmium effectively provoked abnormal cells under zinc deficient conditions, suggesting that the normal process of cell division was interrupted by cadmium.     

Biosynthesis and dietary uptake of polyunsaturated fatty acids by piezophilic bacteria

The biochemistry of piezophilic bacteria is unique in that piezophiles produce polyunsaturated fatty acids (PUFAs). A pertinent question is if piezophilic bacteria synthesize PUFA de novo, through dietary uptake, or both. This study was undertaken to examine the biosynthesis and cellular uptake of PUFAs by piezophilic bacteria. A moderately piezophilic (Shewanella violacea DSS12) and two hyperpiezophilic bacteria (S. benthica DB21MT-2 and Moritella yayanosii DB21MT-5) were grown under 50 MPa (megapascal) and 100 MPa, respectively, in media containing marine broth 2216 supplemented with arachidonic acid (AA, sodium salt) and/or antibiotic cerulenin. There was active uptake and cellular incorporation of AA in the hyperpiezophilic bacteria DB21MT-2 (14.7% of total fatty acids) and DB21MT-5 (1.4%), but no uptake was observed in DSS12. When cells were treated with cerulenin, all three strains incorporated AA into cell membranes (13–19%). The biosynthesis of monounsaturated fatty acids was significantly inhibited (10–37%) by the addition of cerulenin, whereas the concentrations of PUFAs increased by 2–4 times. These results suggest that piezophilic bacteria biosynthesize and/or incorporate dietary polyunsaturated fatty acids that are important for their growth and piezoadaptation. The significance of these findings is also discussed in the context of phenotypic classification of piezophiles.     

Role of planktonic and sessile extracellular metabolic byproducts on <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> and <Emphasis Type="Italic">Escherichia coli</Emphasis> intra and interspecies relationships

Bacterial species are found primarily as residents of complex surface-associated communities, known as biofilms. Although these structures prevail in nature, bacteria still exist in planktonic lifestyle and differ from those in morphology, physiology, and metabolism. This study aimed to investigate the influence of physiological states of Pseudomonas aeruginosa and Escherichia coli in cell-to-cell interactions. Filtered supernatants obtained under planktonic and biofilm cultures of each single species were supplemented with tryptic soy broth (TSB) and used as the growth media (conditioned media) to planktonic and sessile growth of both single- and two-species cultures. Planktonic bacterial growth was examined through OD₆₄₀ measurement. One-day-old biofilms were evaluated in terms of biofilm biomass (CV), respiratory activity (XTT), and CFU number. Conditioned media obtained either in biofilm or in planktonic mode of life triggered a synergistic effect on planktonic growth, mainly for E. coli single cultures growing in P. aeruginosa supernatants. Biofilms grown in the presence of P. aeruginosa biofilms-derived metabolites presented less mass and activity. These events highlight that, when developed in biofilm, P. aeruginosa release signals or metabolites able to prejudice single and binary biofilm growth of others species and of their own species. However, products released by their planktonic counterparts did not impair biofilm growth or activity. E. coli, living as planktonic or sessile cultures, released signals and metabolites or removed un-beneficial compounds which promoted the growth and activity of all the species. Our findings revealed that inter and intraspecies behaviors depend on the involved bacteria and their adopted mode of life.     

Saprospira species—Natural predators

SomeSaprospira spp. from fresh waters have been shown to be predatory on other aquatic bacteria, particularly gliding bacteria. Some can be grown as well axenically but others so far have been cultured only on the host bacteria for which they show a degree of specificity. A marine strain resemblingSaprospira grandis, although capable of growth axenically, is also a predator on a marineCytophaga sp.S. grandis ATCC 23119 failed to grow on the base media or media overgrown with host cells of otherSaprospira spp.