Kiselev K.V., Ogneva Z.V., Aleynova O.A., Suprun A.R., Ananev A.A., Nityagovsky N.N., Dubrovina A.S.
В журнале Horticulturae
Год: 2023 Том: 9 Выпуск: 4 ArticleID: 513
Modern plant biotechnology often faces the problem of obtaining a stable and powerful vector for gene overexpression. It is known that introns carry different regulatory elements whose effects on transgene expression have been poorly studied. To study the effect of an intron on transgene expression, the stilbene synthase 11 (VaSTS11) gene of grapevine Vitis amurensis Rupr. was selected and overexpressed in grapevine callus cell cultures and several plant generations of Arabidopsis thaliana as two forms, intronless VaSTS11c and intron-containing VaSTS11d. The STS genes play an important role in the biosynthesis of stilbenes, valuable plant secondary metabolites. VaSTS11d contained two exons and one intron, while VaSTS11c contained only two exons, which corresponded to the mature transcript. It has been shown that the intron-containing VaSTS11d was better expressed in several generations of transgenic A. thaliana than VaSTS11c and also exhibited a lower level of cytosine methylation. As a result, the content of stilbenes in the VaSTS11d-transgenic plants was much higher than in the VaSTS11c-transgenic plants. Similarly, the best efficiency in increasing the content of stilbenes was also observed in grapevine cell cultures overexpressing the intron-containing VaSTS11d transcript. Thus, the results indicate that an intron sequence with regulatory elements can have a strong positive effect on both transgene expression level and its biological functions in plants and plant cell cultures.