name
Plotnikov Vladimir Konstatinovitch
Scholastic degree
•
Academic rank
associated professor
Honorary rank
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Organization, job position
• Kuban State Agrarian University
доцент
Research interests
биотехнология, молекулярная биология, биологически-активные вещества
Web site url
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Current rating (overall rating of articles)
0
TOP5 co-authors
Articles count: 19
Сформировать список работ, опубликованных в Научном журнале КубГАУ
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06.00.00 Agricultural sciences
Description -
BIOLOGICAL MARKERS FOR SELECTION ON THE FROST RESISTANCE OF WINTER WHEAT AND BARLEY FORM
DescriptionWe have described the theoretical assumptions and methodological solutions in the present review. They are innovative possibilities in the development of laboratory methods for assessing biological features of grain during the selection process
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GENE EXPRESSION OF ANIMALS IN THE AMINO ACID IMBALANCE Part I
DescriptionThis review covers the advances of the molecular biology in the study of gene expression characteristics of animals in the amino acid imbalance
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Description
The main aim of this article is to generalize the results of biochemical and molecular research of developing opaque-2 maize seeds (high-lysine mutant of maize) metabolism peculiarities
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ANIMAL GENE EXPRESSION IN THE AMINO ACID IMBALANCE. Part II
DescriptionThis review covers the advances of the molecular biology in the study of gene expression characteristics of animals in the amino acid imbalance
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Description
In the article, there are the results of comparative studies of the effect of diets with imbalance lysine and tryptophan on the growth, appetite and tissue components of the protein-synthesizing system of Wistar rats and pigs
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CYCLICAL EFFECTS OF ACTINOMYCIN D ON THE BARLEY COLEOPTILES GROWTH
DescriptionIn cell biology, actinomycin D is shown to have the ability to inhibit transcription. Actinomycin D does this by binding DNA at the transcription initiation complex and preventing elongation of RNA chain by RNA polymerase. When soaking the seeds in a solution of actinomycin D, antibiotic blocks RNA synthesis and seed germination occurs at the expense of long-living RNA, available in the mature seed. In the article we present experimental data indicating that as storage seeds of winter barley are changing the action actinomycin D on the growth of coleoptiles. It is shown that actinomycin D at a concentration of 40 µg/ml in October reduced the growth, in December it was not authentically, and in February it was paradoxical amplified growing coleoptiles. We suggest the part of the actinomycin D fastened with growth inhibitor coleoptiles, whose structure changes during seed storage and increase the affinity of actinomicyn D to the inhibitors. At a concentration of 60 µg/ml actinomycin D effectively reduced of the coleoptiles growth. Suppression of seedlings roots growth was proportional to the concentration of the actinomycin D and exposure time
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60 YEARS IN THE RANKS: FEATURES OF MOLECULAR BIOLOGY OF BEZOSTAYA 1 WINTER WHEAT VARIETY
DescriptionThis review is devoted to the 60 anniversary of the winter wheat variety (Triticum aestivum L.) Bezostaya 1 – a masterpiece of world selection. This variety played a great role in increasing total grain yields in the Kuban Region. It also was an important gene source for Russian and world breeding. This variety has initiated and was for many years a party to research molecular biological mechanisms of wheat frost resistance formation. The article summarizes data about the peculiarities of functioning of protein-synthesizing system it sprouts (coleoptilies) under the influence of hardening temperature (4oC): translational activity in vitro, poliribosomts, degree of polyadenilation and stability of total mRNA and specific mRNA translational elongation factor α subunit 1 (eEF-1 α). The in vitro (ommp) system, which adequately characterizes the relative mRNA stability in vivo was used for these measurements. The effects of cooling and light on mRNA stability were shown to be cultivar-specific. The hardiness of winter wheat has a positive relationship with the amount of RNA and DNA, and a negative correlation with the amount of magnesium cations in mature grain that can serve as a simple marker of frost resistance. The main feature of the variety Bezostaya 1 is high content of magnesium ions (Mg++) in RNA molecules and relatively low variation of Mg++-depending molecularphysiological responses for different environmental conditions. The knowledge gained in the study of variety of Bezostaya 1 contributes to the understanding of molecular biological processes that underlie the selection and determining its future success
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INTERACTIONS OF GOLD, SILVER AND MAGNESIUM NANOPARTICLES WITH PLANTS
DescriptionThe review examines the recent years’ data pertaining to the interaction of plants with nanoparticles of noble metals (gold and silver) and with nanoparticles of magnesium as an element that has a central role in the organization of the cellular protein-synthesizing apparatus. Information is presented about the effect of gold and silver nanoparticles on plants and on possible nanoparticle phytotoxicity. It is shown that magnesium nanoparticles, as well as those of noble metals, produce various effects on the growth and productivity of plants, enabling the arsenal of biologically active substances to be expanded. Analysis is made of the involvement of magnesium nanoparticles in cryobiological reaction of the regular breakdown of plant RNA under conditions of ultra low temperatures, which is important not only for the further developments of views of the origin of life ob Earth but also for the purposes of designing new markers for the analysis of the biological peculiarities of agricultural crops on the basis of studies of magnesium in the long-lived RNA of their mature seeds. The presented critical analysis of the literature data, which are often incomplete and contradictory, suggest that a coordinated research program is needed that would detect correlation between particle parameters, experimental design, and observed biological effects
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EFFECT OF GOLD NANOPARTICLES ON SEEDS GERMINATION OF WINTER BARLEY
DescriptionThe article presents experimental data on the research of gold nanoparticles (GNPs) with mean diameter 15 nm and 50 nm effect on seeds germination and growth of 3-day-old etiolated coleoptiles and roots. Compared with distilled water (control) initial colloidal solution of 15 nm and 50 nm GNPs (57 µg/ml) had no significant impact on seeds germination and growth of coleoptiles and roots. However, in both cases a weak tendency to stimulation of the coleoptile growth and root growth inhibition was observed. Reduction of 15 nm GNPs concentration down to 10 µg/ml and 1 µg/ml had not effect on the growth of the seedlings, but stimulated seed germination up to twofold. Similar concentrations of 50 nm GNPs exerted the stimulating effect on seed germination (twofold) and the growth of root and coleoptiles. Seedlings grew especially intensive in colloidal GNPs solution with Au concentration of 10 µg/ml. Temperature rise of 2 degrees (from 25°C to 27°C) resulted in growth increase of control 3-day-old seedlings and opposite effect of 50 nm GNPs: coleoptiles and roots growth fell behind control seedlings growth by 16-17%. However, on the 4th day, the relative growth slowdown of control seedlings occurred at 27°C and growth stimulation effect under the influence of 50 nm GNPs appeared again. Over time, the stimulating effect of 50 nm GNPs decreased: at the end of October it weakened, and in November – beginning of December, it was no observed for the roots, and there was a decline in coleoptiles growth. However, in all cases the effect of stimulation of seeds germination persisted under the influence of 50 nm GNPs, weakening by December. We hypothesize the molecular mechanisms of biological action of GNPs