Ya. V. Pirko scite author profile

The SE7 somaclonal line of finger millet (Eleusine coracana) achieved increased grain yield in field trials that apparently resulted from a higher number of inflorescences and seeds per plant, compared with the wild type. Levels of endogenous cytokinins, especially those of highly physiologically active iso-pentenyl adenine, were increased during early inflorescence development in SE7 plants. Transcript levels of cytokinin-degrading enzymes but not of a cytokinin-synthesizing enzyme were also decreased in young leaves, seedlings, and initiating inflorescences of SE7. These data suggest that attenuated degradation of cytokinins in SE7 inflorescences leads to higher cytokinin levels that stimulate meristem activity and result in production of more inflorescences. Gene expression was compared between SE7 and wild-type young inflorescences using the barley 12K cDNA array. The largest fraction of up-regulated genes in SE7 was related to transcription, translation, and cell proliferation, cell wall assembly/biosynthesis, and to growth regulation of young and meristematic tissues including floral formation. Other up-regulated genes were associated with protein and lipid degradation and mitochondrial energy production. Down-regulated genes were related to pathogen defence and stress response, primary metabolism, glycolysis, and the C:N balance. The results indicate a prolonged proliferation phase in SE7 young inflorescences characterized by up-regulated protein synthesis, cytokinesis, floral formation, and energy production. In contrast, wild-type inflorescences are similar to a more differentiated status characterized by regulated protein degradation, cell elongation, and defence/stress responses. It is concluded that attenuated degradation of cytokinins in SE7 inflorescences leads to higher cytokinin levels, which stimulate meristem activity, inflorescence formation, and seed set.

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Plant genetic transformation using carbon nanotubes for DNA delivery

Burlaka

Pirko

Yemets

et al. 2015

Cytol. Genet.

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

Pydiura

Pirko

Galinousky

et al. 2018

Cell Biology International

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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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Generation of transgenic barley lines producing human lactoferrin using mutant alpha-tubulin gene as the selective marker

et al. 2011

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Epicuticular Wax Composition of Leaves of Tilia L. Trees as a Marker of Adaptation to the Climatic Conditions of the Steppe Dnieper

et al. 2018

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Production of CdS quantum dots with the use of the fungusPleurotus ostreatus

Borovaya¹,

Naumenko²,

Pirko³

et al. 2014

Dopov. Nac. akad. nauk Ukr.

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Biosynthesis of cadmium sulphide quantum dots by usingPleurotus ostreatus(Jacq.) P. Kumm

Borovaya

Pirko

Krupodorova

et al. 2015

Biotechnology & Biotechnological Equipment

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The development of 'green' technologies in nanoparticle synthesis is of considerable importance to broaden their biological applications. Cadmium sulphide nanoparticles are considered very promising in applied chemistry, bioscience and medicine. The aim of this study was to develop an efficient, easily reproducible and environmentally friendly method for biosynthesis of cadmium sulphide quantum dots based on the usage of mycelium of the basidiomycete fungus Pleurotus ostreatus. By incubating P. ostreatus mycelium with inorganic cadmium sulphate and sodium sulphide, we synthesized stable luminescent CdS nanocrystals. They showed absorption peaks at 453 nm (ultravioletÀvisible spectrometry) and a main luminescent peak at 462 nm. Transmission electron microscopy revealed that the obtained quantum dots were of a spherical shape and predominantly from 4 to 5 nm in size. The electron diffraction pattern confirmed the wurtzite crystalline structure of the synthesized cadmium sulphide quantum dots. The obtained results confirm for the first time that the system based on basiodiomycete fungi could be considered promising for synthesizing semiconductor quantum dots.

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Comparative analysis of the efficiency of intron-length polymorphism of β-tubulin genes and microsatellite loci for flax varieties genotyping

et al. 2018

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Ya. V. Pirko

A somaclonal line SE7 of finger millet (Eleusine coracana) exhibits modified cytokinin homeostasis and increased grain yield

Plant genetic transformation using carbon nanotubes for DNA delivery

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

Generation of transgenic barley lines producing human lactoferrin using mutant alpha-tubulin gene as the selective marker

Epicuticular Wax Composition of Leaves of Tilia L. Trees as a Marker of Adaptation to the Climatic Conditions of the Steppe Dnieper

Production of CdS quantum dots with the use of the fungusPleurotus ostreatus

Biosynthesis of cadmium sulphide quantum dots by usingPleurotus ostreatus(Jacq.) P. Kumm

Comparative analysis of the efficiency of intron-length polymorphism of β-tubulin genes and microsatellite loci for flax varieties genotyping

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