[Biodegradation of phenanthrene by Pseudomonas bacteria bearing rhizospheric plasmids in model plant-microbial associations]. / Biodegradatsiia fenantrena rizosfernymi plazmidosoderzhashchimi bakteriami roda Pseudomonas v model'nykh rastitel'no-mikrobnykh assotsiatsiiakh.

The consumption phenanthrene in soil by model plant-microbial associations including natural and transconjugant plasmid-bearing rhizospheric strains of Pseudomonas fluorescens and P. aureofaciens degrading polycyclic aromatic hydrocarbons was studied. It was shown that phytoremediation of soil polluted with phenanthrene in the rhizosphere of barley (Hordeum sativum L.) was inefficient with the absence of the degrading strains. Inoculation of barley seeds with both natural and transconjugant plasmid-bearing Pseudomonas strains able to degrade polycyclic aromatic hydrocarbons (PAH) protected plants from the phytotoxic action of phenanthrene and favored its degradation in soil. Rape (Brassica napus L.) was shown to be an appropriate sentinel plant, sensitive to phenanthrene, which can be used for testing the efficiency of phenanthrene degradation in soil. The biological test with the use of sensitive rape plants can be applied for estimation of the efficiency of phyto/bioremediation of PAH-polluted soils.

[Dynamics of the interaction between Pseudomonas aeruginosa bacteriophage phimF81 and host bacteria]. / Dinamika vzaimodeistviia bakteriofaga phimF81 Pseudomonas aeruginosa s bakteriiami khoziiania.

The population interactions of Pseudomonas aeruginosa virulent bacteriophage phi mF81 with host bacterial cells were studied in dynamics under the conditions of continuous cultivation in the chemostat regime with glucose limitation. It was detected that a maintenance of the bacterium and its specific bacteriophage in the population was realized due to the successive appearance of bacterial mutants resistant to the phage and of phage mutants overcoming this resistance.

[Isolation and characterization of Pseudomonas aeruginosa bacteriophage phikF77 mutants]. / Vydelenie i kharakteristika mutatsionnykh proizvodnykh bakteriofaga phikF77 Pseudomonas aeruginosa.

It was found that phage phi kF77 is resistant to all known Pseudomonas aeruginosa restriction systems. Three types of mutants (dc-) which were unable to grow on different restrictive strains were isolated. All of them belong to one complementation group. Some of these mutations affected also the number of nicks in phage phi kF77 DNA and increased phage resistance to temperature treatment. It may be supposed that genes responsible for antirestriction mechanisms and introduction of nicks into DNA are connected in definite way.

[Dynamic interaction of virulent Pseudomonas aeruginosa bacteriophages with the host bacteria]. / Dinamika vzaimodeistviia virulentnykh bakteriofagov Pseudomonas aeruginosa s bakteriiami khoziaina.

The population interactions of Pseudomonas aeruginosa virulent bacteriophages phi kF77 and phi mnF82 with host bacterial cells were studied in dynamics under the conditions of continuous cultivation in the chemostat regime with glucose limitation. Two different types of maintaining the bacterium and its specific bacteriophages in the population were detected. When P. aeruginosa was cultivated with phage phi mnF82, such a maintenance was realized due to the successive appearance of bacterial mutants resistant to the phage and of phage mutants overcoming this resistance. When P. aeruginosa was cultivated with phage phi kF77, these were maintained owing to the ability of P. aeruginosa to form unstable phage-resistant variants with the segregation of phage-sensitive cells.

[Stability of the NPL-1 and NPL-41 plasmids of naphthalene biodegradation in Pseudomonas putida populations in continuous culture]. / Stabil'nost' plazmid biodegradatsii naftalina NPL-1 i NPL-41 v populiatsiiakh Pseudomonas putida v usloviiakh nepreryvnogo kul'tivirovaniia.

The stability of biodegradation plasmids NPL-1 and NPL-41, which control the synthesis of enzymes for naphthalene oxidation to salicylate, was studied in Pseudomonas putida BSA under the conditions of its continuous cultivation with limitation in glucose or salicylate in the chemostat regime and without limitation in the pH-stat regime. Plasmid NPL-1, which controls the inducible synthesis of naphthalene oxygenase, is stable in the population of P. putida cells under the conditions of continuous cultivation on glucose, but is not stable in the course of cultivation on salicylate, an inductor of the naphthalene oxygenase synthesis. Plasmid NPL-41, which controls the constitutive synthesis of naphthalene oxygenase, is not stable in the population of P. putida cells under the conditions of continuous cultivation on glucose. The operation of genes, which control the oxidation of naphthalene to salicylate (nah), makes plasmids NPL-1 and NPL-41 unstable under the conditions of continuous cultivation in the absence of naphthalene from the medium, i.e. under the conditions when the expression of these genes is not necessary. In that case, cells containing plasmids with a deletion of nah-genes as well as cells without plasmids appear in the population of P. putida, which causes a decline in its futile energy and metabolic processes.