Use of highly dispersed materials for culturing and isolation of granular Agrobacterium radiobacter preparations ]

The effects of synthetic and natural high-dispersion materials on the growth of Agrobacterium radiobacter were studied. Natural minerals montmorillonite and palygorskite (10 g/l nutrient medium) were more potent than high-dispersion silica and its modified forms in stimulating growth of Agrobacterium radiobacter. The interaction of Agrobacterium radiobacter with clay minerals increased the survival rate of bacteria at supraoptimal temperatures. We elaborated new granular bacterial preparation, which enhanced the productivity of cucumbers by 12-15%.     

Influence of Environmental Factors on the Chemotaxis of Bradyrhizobium japonicum

Dependence of motility and chemotaxis was studied in two strains of Bradyrhizobium japonicum upon several environmental factors. In both strains, chemotaxis was found to increase with an increasing concentration of the attractant (glucose) to 5.5 × 10^–2 M. Both motility and chemotaxis reached their maximum in the two- to three-day cultures at neutral pH. The maximum motility of these bacteria occurred at 40°C. The maximum values of chemotaxis in these microorganisms were, however, observed at 20–25°C. Chemotaxis in acidic or alkaline media and at low temperatures was found to be markedly weaker. Nonoptimal values of these parameters in soil may be a limiting factor for the interaction of the given bacteria with soybean roots.     

Phosphate-mobilizing bacteria <Emphasis Type="Italic">Bacillus subtilis</Emphasis> as phenolic producers

Bacteria Bacillus subtilis IMVV-7023 accumulate biologically active phenolic substances in the culture liquid. They include significant amounts of phenylacetic (29.03%) and 4-hydroxyphenylacetic (10.49%) acids. These acids can induce root formation in plants. They also suppress fungal plant pathogens.     

Granular preparations ofAzotobacter containing clay minerals

Interaction ofAzotobacter chroococcum 20 with clay minerals increased their cell viability at supraoptimal temperatures. Therefore, clay minerals were used to develop granular bacterial preparations with high viable cell counts and stable compositions during long-term storage. The titers of viable bacteria in the preparations remained 60–70% of the initial level after 12 months of storage.     

Biological properties of the phosphate-mobilizing Bacillus subtilis strain IMV V-7023

Biological characteristics of a new phosphate-mobilizing bacillus strain are reported. Species-level identification of the strain was performed according to morphological, cultural, and biochemical characteristics and the sequence of the 16S rRNA gene. The strain was identified as Bacillus subtilis IMV V-7023 and displayed a very high ability to mobilize phosphorus from its sparingly soluble inorganic and organic compounds and the capability of synthesizing biologically active substances; in addition, the strain essentially suppressed the growth of phytopathogenic bacteria, micromycetes, and agents causing various diseases of vegetable, cereal, leguminous, and other plants. The strain Bacillus subtilis IMV V-7023 is promising for developing bacterial preparations for crop production.     

The chemotactic properties of Bradyrhizobium japonicum in the presence of natural fine-grained minerals

The natural argillaceous minerals montmorillonite and palygorskite were found to enhance the motility of Bradyrhizobium japonicum cells and to slow down their chemotactic motion to glucose. The latter effect of the minerals is probably due to the adsorption of mineral particles on the cell surface and the blockade of the receptors that are responsible for the chemotactic behavior of the bacterium.     

Electrical properties and interaction with silicon dioxide particles of Bacillus subtilis cells

It was shown that, depending on the quantity of phosphate in cultivation media, the surface layer of the Bacillus subtilis cell wall can mainly consist of either teichoic or teichuronic acids. It was found that the addition of silicon dioxide particles to the bacterial suspension induces an increase in the negative charge of the cell. This cell response to contact interaction with solid particles is observed in bacteria whose surface components are teichoic acids.     

The effect of Azotobacter vinelandii on plant seed germination and adhesion of these bacteria to cucumber roots

Bacterization of seeds of several plant species with Azotobacter vinelandii suspension stimulates their germination to different degrees. This demonstrates that seeds of different species display different sensitivity to the biologically active substances accumulating in the culture liquid of these bacteria. The adhesion patterns of these bacteria to cucumber roots were studied. The maximal number of cells adhered to the root surface at the phase of culture logarithmic growth (24 h), when they were motile. The loss of motility in the stationary growth phase (72 h) decreased the number of cells adhered to roots by 80%.     

Biological Properties of the Phosphorus-Mobilizing Bacillus subtilis Strain IMV V-7023

Biological characteristics of a new phosphate-mobilizing bacillus strain are reported. Species-level identification of the strain was performed according to morphological, cultural, and biochemical characteristics and the sequence of the 16S rRNA gene. The strain was identified as Bacillus subtilis IMV V-7023 and displayed a very high ability to mobilize phosphorus from its sparingly soluble inorganic and organic compounds and the capability of synthesizing biologically active substances; in addition, the strain essentially suppressed the growth of phytopathogenic bacteria, micromycetes, and agents causing various diseases of vegetable, cereal, leguminous, and other plants. The strain Bacillus subtilis IMV V-7023 is promising for developing bacterial preparations for crop production.