A. V. Kilchevsky scite author profile

Flax (Linum usitatissimum L.) is a valuable food and fiber crop cultivated for its quality fiber and seed oil. α-, β-, γ-tubulins and actins are the main structural proteins of the cytoskeleton. α- and γ-tubulin and actin genes have not been characterized yet in the flax genome. In this study, we have identified 6 α-tubulin genes, 13 β-tubulin genes, 2 γ-tubulin genes, and 15 actin genes in the flax genome and analyzed the phylogenetic relationships between flax and Arabidopsis thaliana tubulin and actin genes. Six α-tubulin genes are represented by three paralogous pairs, among 13 β-tubulin genes 7 different isotypes can be distinguished, 6 of which are encoded by two paralogous genes each. γ-tubulin is represented by a paralogous pair of genes one of which may be not functional. Fifteen actin genes represent seven paralogous pairs-seven actin isotypes and a sequentially duplicated copy of one of the genes of one of the isotypes. Exon-intron structure analysis has shown intron length polymorphism within the β-tubulin genes and intron number variation among the α-tubulin gene: three or four introns are found in two or four genes, respectively. Intron positioning occurs at conservative sites, as observed in numerous other plant species. Flax actin genes show both intron length polymorphisms and variation in the number of intron that may be two or three. These data will be useful to support further studies on the specificity, functioning, regulation, and evolution of the flax cytoskeleton proteins.

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A key enzyme of animal steroidogenesis can function in plants enhancing their immunity and accelerating the processes of growth and development

Shpakovski

Спивак

Berdichevets

et al. 2017

BMC Plant Biol

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BackgroundThe initial stage of the biosynthesis of steroid hormones in animals occurs in the mitochondria of steroidogenic tissues, where cytochrome P450SCC (CYP11A1) encoded by the CYP11A1 gene catalyzes the conversion of cholesterol into pregnenolone – the general precursor of all the steroid hormones, starting with progesterone. This stage is missing in plants where mitochondrial cytochromes P450 (the mito CYP clan) have not been found. Generating transgenic plants with a mitochondrial type P450 from animals would offer an interesting option to verify whether plant mitochondria could serve as another site of P450 monooxygenase reaction for the steroid hormones biosynthesis.ResultsFor a more detailed comparison of steroidogenic systems of Plantae and Animalia, we have created and studied transgenic tobacco and tomato plants efficiently expressing mammalian CYP11A1 cDNA. The detailed phenotypic characterization of plants obtained has shown that through four generations studied, the transgenic tobacco plants have reduced a period of vegetative development (early flowering and maturation of bolls), enlarged biomass and increased productivity (quantity and quality of seeds) as compared to the only empty-vector containing or wild type plants. Moreover, the CYP11A1 transgenic plants show resistance to such fungal pathogen as Botrytis cinerea. Similar valuable phenotypes (the accelerated course of ontogenesis and/or stress resistance) are also visible in two clearly distinct transgenic tomato lines expressing CYP11A1 cDNA: one line (No. 4) has an accelerated rate of vegetative development, while the other (No. 7) has enhanced immunity to abiotic and biotic stresses. The progesterone level in transgenic tobacco and tomato leaves is 3–5 times higher than in the control plants of the wild type.ConclusionsFor the first time, we could show the compatibility in vivo of even the most specific components of the systems of biosynthesis of steroid hormones in Plantae and Animalia. The hypothesis is proposed and substantiated that the formation of the above-noted special phenotypes of transgenic plants expressing mammalian CYP11A1 cDNA is due to the increased biosynthesis of progesterone that can be considered as a very ancient bioregulator of plant cells and the first real hormone common to plants and animals.Electronic supplementary materialThe online version of this article (10.1186/s12870-017-1123-2) contains supplementary material, which is available to authorized users.

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Molecular genetic mechanisms of the development of fruit and seed coloration in plants

Аджиева

Babak

Shoeva

et al. 2016

Russ J Genet Appl Res

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DNA divergence as a criterion of a sweet pepper (Capsicum annuum L.) selection for heterosis

Шаптуренко

Тарутина

Mishin³

et al. 2014

Russ J Genet

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The Toolbox for Fiber Flax Breeding: A Pipeline From Gene Expression to Fiber Quality

et al. 2020

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A. V. Kilchevsky

Genome‐wide identification, phylogenetic classification, and exon–intron structure characterization of the tubulin and actin genes in flax (Linum usitatissimum)

A key enzyme of animal steroidogenesis can function in plants enhancing their immunity and accelerating the processes of growth and development

Molecular genetic mechanisms of the development of fruit and seed coloration in plants

DNA divergence as a criterion of a sweet pepper (Capsicum annuum L.) selection for heterosis

The Toolbox for Fiber Flax Breeding: A Pipeline From Gene Expression to Fiber Quality

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