[Creation of genomic DNA libraries for Pseudomonas mallei and Pseudomonas pseudomallei]. / Sozdanie bibliotek genomnoi DNK Pseudomonas mallei i Pseudomonas pseudomallei.

The genomic libraries of P. mallei and P. pseudomallei species were constructed in Escherichia coli. The chromosomal DNA of P. pseudomallei C-141 strain has been cloned into the cosmid vector pHC79 and the broad host range plasmid vector pES154. The chromosomal DNA of P. mallei [symbol: see text]-5 strain has been cloned into the plasmid vector pSUP202. The recombinant clones of the genomic libraries were screened by the enzyme-linked immunoadsorbent assay (ELISA) to detect the production of Pseudomonas antigens: 28 clones were positive. Twelve recombinant strains demonstrated specific antigenic determinants of P. mallei and P. pseudomallei by immunoblotting. Cloned proteins of P. mallei and P. pseudomallei have molecular weights from 30 to 70 kD. A new method for introducing foreign genes into Pseudomonas genomes is offered. P. mallei strains with the chromosomally integrated plasmids pSM are universal recipients for ColEI-based cloning vectors.

[Interaction (integration and excision) of the pRP19.6 plasmid, a derivative of the RP1 plasmid containing duplicated sequence IS21, with the chromosome of Escherichia coli K12]. / Vzaimodeistvie (vstraivanie i iskliuchenie) plazmidy pRP19.6-proizvodnoi RP1, soderzhashchei duplitsirovannuiu posledovatel'nost' IS21, s khromosomoi Escherichia coli K12.

A pRP19.6 plasmid is the derivative of the temperature sensitive RPlts12 plasmid and contains a duplicated IS21 (IS8) element. Using temperature sensitive pRP19.6 replication, Hfr strains have been obtained by integration of the plasmid into the chromosome of E. coli rec+ and recA- cells and their properties were studied. According to the results obtained, pRP19.6 insertion into the genome of the rec+ bacteria IS reversible, and its integration into the chromosome of the recA- bacteria produced the stable Hfr strains. To elucidate the mechanism of pRP19.6 excision from the bacterial chromosome, plasmids of R+ transconjugates generated with a low frequency in the crosses between the stable Hfr strains and the rec+ recipients were analyzed. It was shown that the stable Hfr clones might produce stable R1 plasmids as well as a family of deletion KmsTra- derivatives of the pRP19.6. The structure of the KmsTra- was investigated and the mechanism of their formation was proposed. In the light of the data obtained, prospects of pRP19.6 practical application are discussed.

[Isolation and characteristics of a temperature-sensitive plasmid pRP19.6--an RP1 derivative containing the duplicated IS21 sequence]. / Poluchenie i kharakteristika termochuvstvitel'noi plazmidy pRP19.6--proizvodnoi RP1, soderzhashchei duplitsirovannuiu posledovatel'nost' IS21.

When analysing the antibiotic resistant, temperature-independent derivatives of Proteus mirabilis cells, carrying the plasmid RP1ts12, a derivative of the latter (pRP19.6) with an elevated frequency of integration into E. coli K12 chromosome, has been isolated. The structure and properties of pRP19.6 was studied. As revealed from the data of structural and genetic analyses pRP19.6 is identical to the factor R68.45 described earlier by Haas and Holloway. Similarly to R68.45, the plasmid under study contains two copies of IS21 sequence and mobilises nonconjugative plasmid pBR325 with high efficiency. Using the temperature sensitive replication of pRP19.6, frequency of it's integration into the chromosomes of E. coli rec+ and recA- stains is determined. It is demonstrated that the clones carrying the plasmid in integrated state are Hfr-strains. The possibilities to use the temperature sensitive R68.45 like plasmid for isolation of Hfr-strains in the broad range of gram-negative bacteria and for insertional inactivation of chromosomal genes are discussed.