Role of distant cellular communications in regulation of Pseudomonas fluorescens adhesion

The effects of long-range interactions (LRI) and culture air on the adhesion of Pseudomonas fluorescens cells were studied. One P. fluorescens culture was found to diminish the adhesion of cells of another, glass-screened, P. fluorescens culture by 30%. This effect was interpreted to be due to penetrating LRI. Under the combined action of LRI and culture air (the latter alone reduced cell adhesion by only several percent), the amount of unattached cells increased 2- to 30-fold (on the average, by a factor of nine). Such a great reduction of cell adhesion indicated the synergistic action of LRI and culture air.     

Some properties of thePseudomonas fluorescens adhesin and antiadhesin

Some properties of the adhesion-modifying factors ofPseudomonas fluorescens are described. Adhesin, which promotes the adhesion ofP. fluorescens cells, is a hydrophobic compound of a protein nature with a molecular mass of more than 10 kDa located either at the cell surface or in the medium. Antiadhesin, which suppresses the adhesion ofP. fluorescens cells, is a thermolabile hydrophobic compound of a nonprotein nature with a molecular mass of less than 3 kDa. Heating makes antiadhesin hydrophilic. The role of adhesin and antiadhesin in the adhesion and adaptation ofP. fluorescens cells is discussed.     

Regulation of the adhesion ofPseudomonas fluorescens cells to glass by extracellular volatile compounds

The effect of the gaseous metabolites of onePseudomonas fluorescens culture on the attachment of cells of anotherP. fluorescens culture to glass was studied. Gaseous metabolites increased the number of unattached cells by 10–30% and the mean residence time of cells attached to glass by 100%. These effects were presumably due to the yet unidentified compound, which we called volatile antiadhesin. This compound could be adsorbed by activated charcoal and HAYESEP-Q adsorbent.     

Extracellular factors affecting the adhesion ofPseudomonas fluorescens cells to glass surfaces

Two factors affecting the adhesionof Pseudomonas fluorescens to glass surfaces were revealed in the culture liquid (CL) of this bacterium. One of these factors, adhesin, which is responsible for cell adhesion, was found to be a protein substance located both at the cell surface and in the CL. Bacterial cells grown in rich LB medium were less adhesive than cells grown in minimal M9 medium. The adhesive capacity of cells was independent of the growth phase. The other factor, antiadhesin (AA), which reduces cell adhesion, was found only in the CL. AA concentration in the CL increased with the culture age.     

Enhanced nodulation of soybean by Bradyrhizobium in the presence ofPseudomonas fluorescens

Experiments were undertaken to determine the effect ofPseudomonas fluorescens on nodulation of soybean by two strains ofBradyrhizobium japonicum, USDA I-110 and 61A76.Pseudomonas fluorescens can enhance the nodulation ability ofB. japonicum. Preincubation ofB. japonicum withP. fluorescens before inoculation further increased the level of nodulation.     

Assessment of a chemostat-coupled modified Robbins device to study biofilms

The combination of a modified Robbins device (MRD) attached to the effluent line of a continuous cultivation vessel was assessed by the adhesion of planktonic bacteria maintained at a controlled growth rate. This combination of a chemostat and an MRD provides a large number of sample surfaces for monitoring both the formation and control of biofilms over extended periods of time. This apparatus was used to monitor the colonization of two soil isolates,Pseudomonas fluorescens (EX101) andPseudomonas putida (EX102) onto silastic rubber surfaces. At a similar _rel, both bacteria attached to the silastic, howeverP. fluorescens formed confluent, dense biofilms in less than 24 h, whereasP. putida adhered as single cells or microcolonies after the same period. The metabolic activity, measured by INT-formazan formation, was similar for both organisms with a peak at 6 h of colonization and a subsequent decrease after 24 h. Long term colonization studies ofP. fluorescens produced a population of greater than 9.5 log cfu cm^–2 at 28 days demonstrating the advantages of the chemostat-MRD association. This technique proved to be successful for studying bacterial adhesion and biofilm formation in tubular devices by bacterial populations at controlled and low growth rates.     

Growth temperature and OprF porin affect cell surface physicochemical properties and adhesive capacities of <Emphasis Type="Italic">Pseudomonas fluorescens</Emphasis> MF37

Pseudomonads adapt to various ecological niches by forming biofilms, which first requires bacterial adhesion on surfaces. We studied the influence of growth temperature on surface physicochemical properties of Pseudomonas fluorescens MF37 and on its adhesive capacities onto inert surfaces. It presented a global hydrophilic character, measured by microbial adhesion to solvent (MATS), and showed a cell surface more hydrophilic at 8 and 28°C than at 17°C. Moreover, P. fluorescens MF37 was more adhesive at 17°C. This critical temperature thus should be carefully taken into account in food safety. Adhesion onto inert surfaces is thus influenced by the growth temperature, which modifies the bacteria cell wall properties through changes in the outer membrane components. Therefore, we studied the effect of the loss of OprF, the major outer membrane protein, known to act as an adhesin (root, and endothelial cells). The OprF-deficient mutant was able to adhere to surfaces, but showed the same physicochemical and adhesion properties on abiotic surfaces whatever the growth temperature. OprF is thus not essential in this adhesion process. However, we suggest that OprF is involved in the bacterial environmental temperature sensing by P. fluorescens.This work was supported by a grant from the Région Bretagne (Doctoral fellowship to G.H.).     

Effect of iron-beryllium antagonism on the growth ofPseudomonas fluorescens type S

Studies of the growth ofPseudomonas fluorescens type S in acidified peptone nutrient broth supplemented with potassium dioxalatoberyllate show that the inhibitory action of beryllium on the lag phase can be strongly counteracted by an increase in the iron content of the medium. In terms of relative concentrations, Fe³⁺ is up to 250 times more effective than Mg²⁺ as an antagonist of beryllium under the conditions employed. Conversely, evidence of the effect of beryllium on iron-dependent constituents of the cell is provided by the fact that cultures ofPseudomonas fluorescens adapted to relatively high concentrations of beryllium show a marked decrease in cytoohromec content.     

Extracellular factors responsible for the adaptation ofPseudomonas fluorescens batch cultures to unfavorable conditions

The culture liquid filtrate of an exponential-phasePseudomonas fluorescens batch culture added to anotherP. fluorescens culture at the moment of inoculation was found (1) to prevent or diminish cell adsorption of the flask walls, (2) to enhance the intensity of cell respiration, (3) to shorten the period of adaptation of LB-grown cells to growth in glucose-containing mineral M9 medium, (4) to stimulate bacterial growth at supraoptimum temperature (36°C) and pH values (4.8 and 9.2), and (5) to decrease the death rate of bacteria at the supraoptimum growth temperature. These results were interpreted as indicating thatP. fluorescens cultures produce two types of regulatory exometabolites similar to those revealed earlier inEscherichia coli andBacillus subtilis cultures: the direct-action adaptogenic factorX ₁ capable of increasing bacterial resistance to unfavorable growth conditions (temperature and pH) and factor of accelerated adaptation to new media. Both factors are presumably low-molecular-weight hydrophilic nonprotein compounds.     

Bacterization of peanut withPseudomonas fluorescens for biological control ofRhizoctonia solani and for enhanced yield

Severity of stem-rot disease of peanut caused byRhizoctonia solani was reduced by 54.9 and 68% in plants of two cultivars treated in the greenhouse with antagonistic strains ofPseudomonas fluorescens. These strains were selected based on theirin vitro toxicity to mycelial growth and sclerotial germination ofR. solani. In field experiments, bacterization of peanuts withP. fluorescens resulted in taller plants (by 25.7%) and increased yields (by 59.0%).     

The effects of glutaraldehyde on the control of single and dual biofilms of Bacillus cereus and Pseudomonas fluorescens

Glutaraldehyde (GLUT) was evaluated for control of single and dual species biofilms of Bacillus cereus and Pseudomonas fluorescens on stainless steel surfaces using a chemostat system. The biofilms were characterized in terms of mass, cell density, total and matrix proteins and polysaccharides. The control action of GLUT was assessed in terms of inactivation and removal of biofilm. Post-biocide action was characterized 3, 7, 12, 24, 48 and 72 h after treatment. Tests with planktonic cells were also performed for comparison. The results demonstrated that in dual species biofilms the metabolic activity, cell density and the content of matrix proteins were higher than those of either single species. Planktonic B. cereus was more susceptible to GLUT than P. fluorescens. The biocide susceptibility of dual species planktonic cultures was an average of each single species. Planktonic cells were more susceptible to GLUT than their biofilm counterparts. Biofilm inactivation was similar for both of the single biofilms while dual biofilms were more resistant than single species biofilms. GLUT at 200 mg l^?1 caused low biofilm removal (<10%). Analysis of the post-biocide treatment data revealed the ability of biofilms to recover their activity over time. However, 12 h after biocide application, sloughing events were detected for both single and dual species biofilms, but were more marked for those formed by P. fluorescens (removal >40% of the total biofilm). The overall results suggest that GLUT exerts significant antimicrobial activity against planktonic bacteria and a partial and reversible activity against B. cereus and P. fluorescens single and dual species biofilms. The biocide had low antifouling effects when analysed immediately after treatment. However, GLUT had significant long-term effects on biofilm removal, inducing significant sloughing events (recovery in terms of mass 72 h after treatment for single biofilms and 42 h later for dual biofilms). In general, dual species biofilms demonstrated higher resistance and resilience to GLUT exposure than either of the single species biofilms. P. fluorescens biofilms were more susceptible to the biocide than B. cereus biofilms.     

Molecular genetic characterization of bacterial isolates causing brown blotch on cultivated mushrooms in Japan

The polymerase chain-reaction (PCR) was used to amplify 16S ribosomal DNA (16S rDNA) from bacteria, identified asPseudomonas tolaasii orP. fluorescens, causing brown blotch on cultivated mushrooms in Japan. PCR-amplified 16S rDNA was analyzed on the basis of nucleotide sequence and restriction fragment length polymorphisms (RFLP) to determine the specific identity of isolates. Banding patterns obtained through PCR using primers corresponding to repetitive extragenic palindromic sequences of enteric bacteria (REP-PCR) were used to determine the relatedness of conspecific isolates. AllP. tolaasii isolates and a mushroom pathogen identified asP. fluorescens had identical RFLP patterns and partial 16S sequences, and are considered conspecific. An isolate ofP. fluorescens from creamery wastes (IFO 3507) differed slightly from isolates ofP. tolaasii in both 16S sequence (0.8%) and RFLP patterns (d=0.08), and had almost entirely different REP-PCR bands (d=0.88–1.0). Phylogenetic analyses based on 16S sequences indicated thatP. tolaasii andP. fluorescens are close members ofPseudomonas sensu stricto. REP-PCR shows promise in characterizing isolates pathogenic on different mushroom crops. Two isolates ofP. tolaasii pathogenic onPleurotus ostreatus had identical banding patterns, but three isolates fromLentinula edodes showed the greatest diversity. Contribution No. 312 of the Tottori Mycological Institute, Totori, Japan.     

Extracellular Protease as a Reversible Adhesion Regulator in Pseudomonas fluorescens

The investigation of growth dynamics and protein content in a batch Pseudomonas fluorescens culture grown in a synthetic medium with glucose as the sole source of carbon and energy showed that cells reversibly adhere to the walls of the cultivation flask during the first 2–3 h of growth. Over this time period, the total protein content of free and bound cells increased exponentially at a rate of 0.25 h^–1, the fraction of proteins in cells being almost the same (60–70%). The protein content in the medium increased from 3 to 50 mg/l, reaching about 30% of the total protein of the culture. The addition of the exponential culture liquid filtrate to the medium together with the inoculum led to the complete inhibition of cell adhesion and a drastic activation of proteolysis, with a concurrent release of more than 80% of cellular proteins into the medium. After 3–5 h of growth, the concentration of extracellular proteins decreased to the control level. Exogenously added proteinase K inhibited cell adhesion, the effect being more pronounced for R-type than for S-type cells. The hypothesis is discussed that the short-term reversible adhesion of cells is regulated with the involvement of a mixture of hydrocarbons, which inactivate the functional activity of bacterial adhesins, and proteases, which digest these adhesins.     

Comparison of RNA sequences from widely divergent species

Summary Tests that take into account the effects of gaps have been applied to 5S ribosomal RNA sequences from the bacteria,E. coli andP. fluorescens, and from KB carcinoma cells. The 5S RNAs from KB andP. fluorescens, when compared to that ofE. coli are shown to be more similar than random sequences of the same composition. Intrasequential analyses of 5S RNAs give some evidence for partial gene duplication or repetitive subsequences, but the proposed duplication of Brownlee, Sanger and Barrell (1968) is not supported by our data.     

Long-term survival of and plasmid stability inPseudomonas andKlebsiella species and appearance of nonculturable cells in agricultural drainage water

One year after introduction into agricultural drainage waterPseudomonas fluorescens R2f (RP4),Pseudomonas putida CYM318 (pRK2501), andKlebsiella aerogenes NCTC418 (pBR322) could be recovered on agar media. Survival of the introduced strains depended on competition with the indigenous microflora, the presence of nutrients, and the availability of air.In contrast toK. aerogenes NCTC418 (pBR322), bothPseudomonas species lost their plasmids, as indicated by the consistently lower colony counts on selective medium compared with the counts on nonselective medium. The plasmid loss did not depend on nutrient status and oxygen supply. P. fluorescens R2f cells could be detected with the immunofluorescence (IF) technique. Total cell counts determined by IF were consistently higher than corresponding colony counts. Even in samples where no colonies were recovered, R2f cells could be detected by IF. This indicated the occurrence of nonculturable R2f cells in drainage water. Homology with³²P-labelled plasmid RP4 DNA was found in several drainage water samples that originally receivedP. fluorescens R2f (RP4), by using the cell suspension filter hybridization technique. P. putida CYM318 andK. aerogenes NCTC418 cells could also be detected in sterile drainage water samples, after nonspecific staining with fluorescein isothiocyanate. Cell counts of both strains were consistently higher than corresponding plate counts.     

Monitoring Population Size,Activity, and Distribution of gfp-luxAB-Tagged Pseudomonas fluorescens SBW25 during Colonization of Wheat

Increasingly, focus has been directed towards the use of microorganisms as biological control agents to combat fungal disease, as an alternative to chemical fungicides. Pseudomonas fluorescens SBW25 is one bacterial strain that has been demonstrated to promote plant growth by biocontrol of pathogenic fungi. To understand the mode of action of this bacterium, information regarding its localization and metabolic activity on plants is important. In this study, a gfp/luxAB-tagged derivative of P. fluorescens SBW25, expressing the green fluorescent protein (GFP) and bacterial luciferase, was monitored during colonization of wheat starting from seed inoculation. Since bacterial luciferase is dependent on cellular energy reserves for phenotypic expression, metabolically active cells were detected using this marker. In contrast, the stable GFP fluorescence phenotype was used to detect the cells independently of their metabolic status. The combination of these two markers enabled P. fluorescens SBW25 cells to be monitored on wheat plants to determine their specific location and metabolic activity. Studies on homogenized wheat plant parts demonstrated that the seed was the preferred location of P. fluorescens SBW25 during the 65-day time period studied, but the leaves and roots were also colonized. Interestingly, the bacteria were also found to be metabolically active on all plant parts examined. In situ localization of P. fluorescens SBW25 using a combination of different microscopic techniques confirmed the preference for the cells to colonize specific regions of the seed. We speculate that the colonization pattern of P. fluorescens SBW25 can be linked to the mechanism of protection of plants from fungal infection.     

Inhibitory effects of tunicamycin on cell-cell adhesion and cell reaggregation of the cellular slime mold,Polysphondylium pallidum

To assess the role in cell-cell adhesion of gp64, a putative cell-cell adhesion molecule ofPolysphondylium pallidum, we treated the cells with tunicamycin (TM), a known inhibitor of the synthesis of the N-linked oligosaccharide precursor, and examined TM's effect on cell-cell adhesion. The vegetative growth ofPolysphondylium cells was inhibited with TM in a dose-dependent manner. When cells were treated with TM (2.0 μg/ml) during only the first 4 hr of starvation and further starved for 8 hr without TM, the cells dissociated considerably, although even the growth phase cells ofPolysphondylium normally show EDTA-resistant (Ca²⁺-independent) cell adhesions. In parallel with the above effects, the amounts of intact gp64 decreased considerably in time with the lengths of incubation (0 hr>4 hr >8 hr). When TM-treated cells were washed free of TM, and shaken for a further 12 hr, the cells began to aggregate again, accompanied by an increase of gp64. In conclusion, TM affected cell-cell adhesion ofPolysphondylium cells, but we were not able to distinguish whether the inhibition of cell aggregation was due to defects in glycosylation on glycoproteins and/or due to reduced levels of glycoproteins themselves.     

The Influence of <Emphasis Type="Italic">P. fluorescens</Emphasis> Cell Morphology on the Lytic Performance and Production of Phage ϕIBB-PF7A

This study aims at assessing the influence of Pseudomonas fluorescence cell morphology on the effectiveness and production of the lytic bacteriophage ϕIBB-PF7A. P. fluorescens were cultured as rods or as elongated cells by varying the temperature and rotary agitation conditions. Cells presented rod shape when grown at temperatures up to 25°C and also at 30°C under static conditions, and elongated morphology only at 30°C when cultures were grown under agitation. Elongated cells were 0.4 up to 27.9 μm longer than rod cells. Rod-shaped hosts were best infected by phages at 25°C which resulted in an 82% cell density reduction. Phage infection of elongated cells was successful, and the cell density reductions achieved was statistically similar (P > 0.05) to those obtained at the optimum growth temperature of P. fluorescens. Phage burst size varied with the cell growth conditions and was approximately 58 and 153 PFU per infected rod and elongated cells, grown at 160 rpm, at 25°C (the optimal temperature) and 30°C, respectively. Phage adsorption was faster to elongated cells, most likely due to the longer length of the host. The surface composition of rod and elongated cells is similar in terms of outer membrane proteins and lipopolysaccharide profiles. The results of this study suggest that the change of rod cells to an elongated morphology does not prevent cells from being attacked by phages and also does not impair the phage infection.     

Exploiting medicinal plants and phylloplane microflora for the management of grapevine downy mildew

Abstract

Grapevine downy mildew is the most devastating disease throughout the world causing huge monetary losses. Twenty medicinal plant extracts and six phylloplane microfloras were evaluated for their efficacy against sporangial germination of grapevine downy mildew pathogen Plasmopara viticola in vitro. The results revealed that the Neem Seed Kernel Extract (NSKE) at 5% significantly inhibited the sporangial germination (75.36%) of P. viticola. Among the phylloplane microflora Pseudomonas fluorescens was highly effective in reducing the sporangial germination (64.26%). Post inoculation spraying of NSKE (5%) and P. fluorescens (0.2%) effectively inhibited the disease development in the greenhouse. Three sprays with NSKE (5%) and phylloplane P. fluorescens (0.2%): first spray after initial appearance of disease and the second and third at 10 day intervals were found to be promising in reducing disease incidence in the field.     

Phytoextraction of soil cadmium and zinc by microbes-inoculated Indian mustard (Brassica juncea)

Abstract

A pot experiment was carried out to evaluate the effect of Pseudomonas fluorescens and Trichoderma harzianum inoculation on the uptake of zinc (Zn) and cadmium (Cd) by Indian mustard (Brassica juncea) from the soil having three different concentrations of Zn (300, 600, 900 mg/kg) and Cd (5, 10, 15 mg/kg) separately. Microbial inoculation resulted in significantly better plant growth, available metal content and their uptake than control (without microbes). Available Zn was enhanced, ca.1.6- and 1.4-fold and Cd ca. 2.5- and 1.8-fold, by P. fluorescens and T. harzianum, respectively. P. fluorescens resulted in an increase in Zn uptake by 113.9, 51.9 and 58.4% and T. harzianum by 42.6, 32.1 and 33.9% over control from soils having 300, 600 and 900 mg Zn, respectively, while of the corresponding results for Cd were 110.2, 48.9 and 58.1% with P. fluorescens and 42.6, 30.9 and 33.4% with T. harzianum from soil having 5, 10 and 15 mg Cd, respectively, after 90 days of treatment. In general the rate of metal uptake was higher during the initial 30 days and declined later.