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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Description
This overview and theoretical article deals with the consideration of hypothetical possibilities for the development of molecular-kinetic markers of agricultural plants allowing to quantify the effect of genotype-environment interaction on the basis of stability studies of mRNA. The development in view is based on the results of studies of the mRNA decay identity in vivo and in vitro (the ommp system), as well as the phenomenon of RNA interference (RNAi), widely studied in plants. The ommp system has allowed to establish the relationship of the cultivar-specific growth reaction to the effects of low positive temperatures, dehydration, salinity, illumination and biologically active substances with the stability of the total and a number of gene-specific mRNAs of green and etiolated seedlings of winter soft wheat (Triticum aestivum L.) and winter barley (Hordeum vulgare L.). Similar studies of mRNA stability have been conducted on ripening grains of maize (Zea mays L.), with a particular result of the in vivo and in vitro decay identity confirmed for major mRNAs of stored proteins, 19 and 22 kDa zeins, of normal maize and mutant according to the regulatory gene opaque-2, changing the amount and stability of zein mRNA in the maturing grain of high-lysine maize. Regulatory response of the organism through RNAi is also multiple and includes neutralization of viral and bacterial infections, reaction to pathogens and biologically active substances, circadian rhythms, water stress, hypoxia, mechanical stress, mineral nutrition, salt stress and temperature changes. Unfavorable environmental influences result in an increase or decrease in the expression of certain microRNAs (miRNAs). The change in mRNA stability is an important component of the gene expression regulation system in eukaryotic cells. The main determinants of mRNA stability are in the 3'-untranslated region. It is the It is the (U)nА sequence and the degree of polyadenylation of mRNA, i.e. length of its terminal homonucleotide chain. It is to this region that mRNA molecules are complementary to miRNA. The most important component, which largely determines the regularity of the genotype-environment interaction, is the polyadenyl sequence at the 3 'end of the mRNA. Its length depends both on the genotype and on the environmental conditions. There is evidence that polyadenylation degree of mRNA determines the secondary structure of the molecule. As is known, deadenylation of mRNA reduces its lifetime, and when the poly-A-tail reaches several dozens of nucleotides, an explosive disintegration of the mRNA molecule occurs. Consequently, in a living cell the following mRNA decomposition scheme appears to be logical: shortening the poly-A-tail of the mRNA opens the sites of miRNA interaction with the 3'-non-coding region of the mRNA molecule, which causes its degradation. Thus, it is safe to assume that the interaction of mRNA and miRNA in the ommp system is the underlying process for molecular-kinetic markers under development
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SPECIFICITY OF TRILON B INFLUENCE ON THE GERMINATION OF SEEDS OF VARIETIES OF WINTER BARLEY
DescriptionThe problem of increasing resistance of winter barley to adverse conditions of winter is the most problem in the selection area of this crop. The main component of this complex trait is the frost resistance. Laboratory methods of assessment of frost resistance are important for breeding of winter barley. These methods can effectively replace more costly method of direct freezing in the freezers. Magnesium cations (Mg++) are essential components of the protein-synthesizing system of germinating seeds. Magnesium cations determine the stability and translational activity of mRNA and rRNA. Trilon B is usually used for in vitro banding of magnesium cations in area of biochemistry of the nucleic acids. It was very interesting to verify the Trilon B influence to seed germination of winter barley varieties by experiment. Experiments showed: actinomycin D – the inhibitor of RNA synthesis – didn’t show varieties specific effect to seed growth of winter barley, while Trilon B had a varieties specific impact to length coleoptiles and roots. Research was carried out on etiolated seedlings at temperatures from 22 to 28oC, and different concentrations of Trilon B - 1,6×10-3М, 2,4×10-3М and 3,2×10-3М. The roots of 3-days old seedlings were more sensitive to Trilon B influence. It is shown the varieties of Russian origin were naturally reacted to Trilon B: the higher the frost resistance of variety, the more resistant variety to the action of various concentrations of Trilon B at different temperatures. The most optimum concentration was 3,2 × 10-3М at 22-25oC. Varieties by foreign origin deviated from this pattern. It is interesting to research the genetic essence of these differences. It will be helpful for optimization of varieties differentiation conditions to create a laboratory method of estimate of frost resistance of winter barley. The new method will be most efficient compared the direct freezing method
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STABILIZATION OF MRNA CEREALS IN VITRO UNDER THE SILICON INFLUENCE
DescriptionThe differential stability of mRNA is an important mechanism for posttranscriptional regulation of gene expression in eukaryotes. Messenger RNA stability is controlled by specific genes and growth conditions. The review examines the theoretical possibility of mRNA stabilization in vivo as a consequence of replacing carbon atoms (C) or phosphorus (P), composed of nucleic acid on the silicon (Si) atom. During isolation of poly-(A)+mRNA from plant tissues by the two-cycle affinity chromatography on poly-(U)-Sepharose, regular changes in poly- (A)++mRNA yield were observed. The changes varied both with the plant genotype and growth conditions. Celite treatment of heated and unheated total RNA preparations from developing corn kernels and from green and etiolated wheat seedlings. Messenger RNA that differed in the length of poly- (A)-sequences was used for hybridization. It is evident that a reduction of poly-(A)-length causes alterations in spatial structure of mRNA, and associated proteins and cations Mg++ become accessible to celite absorption. Heating promotes melting of secondary structure, already initiated, and increases the efficiency of mRNA stabilization by celite. Interpreting the facts interact celite with mRNA in vitro and stabilization of mRNA in vivo by cycloheximide with a modern point of view can be considered with the position research of the phenomenon of RNA interference
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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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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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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