[Effect of lox-sites of the Cre lox recombination system on promoterless bar gene expression in transgenic plants].

We demonstrate that localization of lox site between the right border of T-DNA and promoterless bar gene (RB-lox-bar-) led to its highly efficient expression in transgenic plants of Nicotiana tabacum and N. africana. Plasmid vectors used in gene integration experiments contained neomycin phosphotransferase II (npt II) gene under nos promoter as well. Transgenic plants were selected according to their capacity to grow on the medium with kanamycin and then they were tested on the selective medium containing phosphinothricin. 80% of transgenic plants expressed bar gene at the level similar to that in plants transformed with the bar gene under widely used constitutive promoter. Transformation of plants with the plasmid vector containing only promoterless bar gene near T-DNA right border (RB-bar-) and with the vector containing lox site and promoterless bar gene in the middle of the construction (-lox-bar-) led to obtaining no more than 4.5% of transgenic plants resistant to phosphinothricin. PCR analyses confirmed both the absence of tandem repeats and of plasmid recombination resulting in transference of bar gene under promoter in plasmid vector. Nos-terminator situated between the lox site and the right border of T-DNA did not decrease bar gene expression.

[In vitro regeneration of Nicotiana africana plants from explants of different type and mesophyll protoplasts]. / Regeneratsiia in vitro rastenii Nicotiana africana iz éksplantov raznogo tipa i mezofil'nykh protoplastov.

Methods of in vitro cultivation of an African endemic species Nicotiana africana (Solanaceae) possessing some valuable traits have been elaborated. Influence of different concentrations of auxin (alpha-naphtaleneacetic acid) and cytokinins (6-benzylaminopurine, zeatin, thidiazuron) on morphogenesis and plant regeneration has been analysed using leaves and internodes as explants. The optimum method of regeneration of N. africana shoots in leaf explants is cultivation in the presence of 0.1 mg/l NAA and 1 mg/l BA; in internode explants--cultivation on the medium containing 0.5 mg/l NAA and 1 mg/l zeatin. The use of thidiazuron was the most effective at the concentration of 0.4 mg/l with subsequent transfer of explants to hormone-free medium. Method of isolation and culture of mesophyll protoplasts enabling to regenerate N. africana plants during 3-4 months has been proposed.

[Genetic transformation of Nicotiana africana Merxm. with plasmids containing lox recombination]. / Geneticheskaia transformatsiia rastenii Nicotiana africana Merxm. plazmidami, soderzhashchimi saity recombinatsii lox.

An efficient genetic transformation method for african tobacco Nicotiana africana Merxm. has been established. African tobacco is a valuable source for cytoplasmic male sterility (CMS) and nuclear encoded resistance to potato virus Y (PVY). N. africana transgenic plants have been obtained using both Agrobacterium-mediated and direct transformation of leaf explants with gold particle bombardment using particle inflow gun. Plasmid vectors containing phosphinothricin resistance gene (bar gene) coding region without promoter and independent 35S promoter between lox sites (lox-bar-35S-lox) and nptII gene were used. Transgenic plants were selected according to growth capacity on the selective medium containing 50 mg/l kanamycin. PCR analyses of kanamycin-resistant plants confirmed the presence of nptII and bar genes in their genome. Agrobacterium-mediated transformation of root explants has proved to be the most efficient transformation method for N. africana.