[Plant transposable elements and their application in genetics and biotechnology].

Data concerning plant transposable elements and their contribution to plant genome evolution are reviewed. Much attention is focused on utilization of transgenic plants as heterologous hosts of transposons for investigation of transposition mechanisms and gene cloning. Probable ways of the use of plant transposons as genetic tools in biotechnology are discussed.

[Creation and analysis of Brassica napus + Arabidopsis thaliana somatic hybrids possessing maize Spm/dSpm heterologous transposable system].

Functionally asymmetric somatic hybrids possessing heterologous transposable element Spm/dSpm were obtained following intertribal somatic hybridization between Brassica napus and transgenic Arabidopsis thaliana. Mobile genetic elements actively transposed in the hybrid genomes. Complete elimination of A. thaliana genome was not observed.

[Obtaining of intertribal Brassica juncea+Arabidopsis thaliana somatic hybrids and study of transgenic trait behaviour]. / Otrymannia mizhtrybnykh somatychnykh hibrydov Brassica juncea+Arabidopsis thaliana ta doslidzhennia povedinky transhennykh oznak.

Intertribal somatic hybridization between wild type Brassica juncea (L.) Czern. & Coss. and transgenic A. thaliana L. has been carried out. Genome of A. thaliana plants contained heterologous transposable element Spm/dSpm, reporter GUS gene, selective genes for kanamycin- (npt II) and phosphinothricin (bar) resistance. Hybrid nature of obtained plants was confirmed with their morphology, GUS hystochemical assay, PCR-RFLP, RAPD and isozyme analyses. It was determined that heterologous transposable element Spm/dSpm is able to function in hybrid plants. There was no complete elimination of A. thaliana genetic material in the hybrids and the transgenes were stably maintained.