[Analysis of nuclear and mitochondrial genomes of transplastomic Salpiglossis sinuata plants obtained by transfer of transformed plastids from N. tabacum (+S. sinuata) cybrid]. / Analiz iadernogo i mitokhondrial'nogo genomov u transplastomnykh rastenii Salpiglossis sinuata, poluchennykh putem perenosa transformirovannykh plastid ot tsibrida N. tabacum (+S. sinuata)

New model system of plastid transformation has been proposed using a wild representative of Solanaceae family--S. sinuata. Earlier obtained cybrid plants N. tabacum (+ S. sinuata) were used for transformation experiments by PEG treatment of protoplasts with aadA gene that confers resistance to spectinomycin. Transformed S. sinuata plastome was transferred from N. tabacum (+ S. sinuata) cybrid to S. sinuata wild type plants by somatic hybridization. Molecular analysis of nuclear and mitochondrial DNA has been performed.

[Activity of the corn Spm transposon system in transgenic plants Orychophragmus violaceus (L.) O.E. Schulz obtained by both direct transfer of DNA to protoplasts and agrobacterial transformation of root explants]. / Aktivnost' sistemy Spm transpozonov kukuruzy u transgennykh rastenii Orychophragmus violaceus(L.) O.E.Schulz, poluchennykh putem kak priamogo perenosa DNK v protoplasty, tak i agrobakterial'noi transformatsiei kornevykh éksplantov.

Transposon mediated insertional mutagenesis is one of the approaches for the unique gene cloning. A wild species of Cruciferae family Orychophragmus violaceus (L.) O.E. Schulz, which is of interest for practical breeding as a donor of improved plant oil, was an object of the investigation. Plasmid construction used in the experiments included selective NPT II gene, reported GUS gene serving as an excision marker, structural BAR gene located within the dSpm element and Spm transposase. The GUS gene of this plasmid had not his own promoter and became functional only after Spm-transposition. Transformed Orychophragmus violaceus (L.) O.E. Schulz. plants were obtained by direct mesophyll protoplast transformation as well as Agrobacterium tumefaciens-mediated root explant transformation. Gene transfer and the transposition event were confirmed by the GUS activity and the PCR analysis. Relative transformation efficiency using protoplasts was 5.8%.