Search Results - "Samuilov, V. D."

The Effect of Neurotransmitters on Programmed Cell Death and Formation of Reactive Oxygen Species in the Pea Leaf Epidermis by Kiselevsky, D. B., Oleskin, A. V., Samuilov, V. D.

“…Neurotransmitters are found not only in animals, but also in other living organisms, including plants. However, the data on the functions of these compounds in…”
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Reactive oxygen species in programmed death of pea guard cells by Samuilov, V. D, Kiselevsky, D. B, Shestak, A. A, Nesov, A. V, Vasil'ev, L. A

“…Hydrogen peroxide potentiates CN⁻-induced apoptosis of guard cells recorded as destruction of cell nuclei in the epidermis from pea leaves. A still stronger…”
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Effect of Ca²⁺ on programmed death of guard and epidermal cells of pea leaves by Kiselevsky, D. B, Kuznetsova, Yu. E, Vasil'ev, L. A, Lobysheva, N. V, Zinovkin, R. A, Nesov, A. V, Shestak, A. A, Samuilov, V. D

“…The effect of Ca²⁺ on programmed death of guard cells (GC) and epidermal cells (EC) determined from destruction of the cell nucleus was investigated in…”
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Permeability of the Plasma Membrane for Propidium Iodide and Destruction of Cell Nuclei in the Epidermis of Pea Leaves: The Effect of Polyelectrolytes and Detergents by Kiselevsky, D. B., Samuilov, V. D.

“…Damage to the plasma membrane (PM) of cells in pea leaf epidermis determined by its permeability to propidium iodide (PI), which binds to DNA of cell nuclei,…”
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Effect of cationic plastoquinone SkQ1 on electron transfer reactions in chloroplasts and mitochondria from pea seedlings by Samuilov, V. D., Kiselevsky, D. B.

“…Plastoquinone bound with decyltriphenylphosphonium cation (SkQ1) penetrating through the membrane in nanomolar concentrations inhibited H 2 O 2 generation in…”
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Energy problems in life evolution by Samuilov, V D

“…Evolutionary aspects of bioenergetics are considered. These include the origin of the first organisms, UV-protection and the beginnings of anoxygenic…”
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Effect of Low Molecular Weight Chitosan on Cells of Epidermis from Pea Leaves by Kiselevsky, D. B., Shagdarova, B. Ts, Varlamov, V. P., Samuilova, O. V., Samuilov, V. D.

“…The effect of low molecular weight chitosans with a molecular weight (MW) of 5, 6, 10, 25, and 45 kDa and a deacetylation degree (DD) of 85–99% obtained by…”
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Microbial therapy of cancer: induction of apoptosis, recombinant vaccines, and inhibition of angiogenesis by Samuilov, V D

“…This review presents diverse approaches to cancer biotherapy including bacteriolytic therapy aimed at inducing apoptosis in tumor cells, bacterial vector-based…”
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Programmed cell death by Samuilov, V D, Oleskin, A V, Lagunova, E M

“…This paper reviews data on programmed cell death (apoptosis) in animals and plants. Necrosis is a pathological scenario of cell death, which entails an…”
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Programmed cell death in plants: ultrastructural changes in pea guard cells by Bakeeva, L E, Dzyubinskaya, E V, Samuilov, V D

“…Treatment with cyanide of epidermal peels isolated from pea leaves resulted in destruction of nuclei in the guard cells of stomata, which is visible with a…”
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H2O2 intensifies CN(-)-induced apoptosis in pea leaves by Samuilov, V D, Kiselevsky, D B, Sinitsyn, S V, Shestak, A A, Lagunova, E M, Nesov, A V

“…H2O2 intensifies CN(-)-induced apoptosis in stoma guard cells and to lesser degree in basic epidermal cells in peels of the lower epidermis isolated from pea…”
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On modeling on a single-winding forced valve electromagnet in a circuit with a ballast resistor by Gracheva, Ye. I., Petrov, V. N., Russova, N. V., Samuilov, D. V., Svintsov, G. P., Protosovitski, I.V.

“…We have built a mathematical model of starting up a forced U-shaped valve electromagnet of static voltage taking into account dynamic parameters and…”
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Programmed cell death in plants: effect of protein synthesis inhibitors and structural changes in pea guard cells by Dzyubinskaya, E V, Kiselevsky, D B, Bakeeva, L E, Samuilov, V D

“…Pea leaf epidermis incubated with cyanide displayed ultrastructural changes in guard cells that are typical of apoptosis. Cycloheximide, an inhibitor of…”
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Salicylhydroxamic acid enhances the NADH-oxidase activity of peroxidase in pea mitochondrial and chloroplast suspensions by Samuilov, V. D, D. B. Kiselevsky

“…Salicylhydroxamic acid (SHAM), an alternative oxidase inhibitor of plant mitochondria, enhances the NADH-oxidase activity in mitochondrial and chloroplast…”
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Plant cell death caused by fungal, bacterial, and viral elicitors: protective effect of mitochondria-targeted quinones by Kiselevsky, D. B., Frolova, O. Yu, Solovyev, A. G., Dorokhov, Yu. L., Morozov, S. Yu, Samuilov, V. D.

“…Chitosan (partially deacetylated chitin), a component of fungal cell walls, caused epidermal cell (EC) death in the leaves of pea ( Pisum sativum L.) and…”
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Involvement of chloroplasts in the programmed death of plant cells by Samuilov, V D, Lagunova, E M, Dzyubinskaya, E V, Izyumov, D S, Kiselevsky, D B, Makarova, Ya V

“…The effect of cyanide, an apoptosis inducer, on pea leaf epidermal peels was investigated. Illumination stimulated the CN--induced destruction of guard cells…”
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Mitochondria-addressed cations decelerate the leaf senescence and death in Arabidopsis thaliana and increase the vegetative period and improve crop structure of the wheat Triticum aestivum by Dzyubinskaya, E. V., Ionenko, I. F., Kiselevsky, D. B., Samuilov, V. D., Samuilov, F. D.

“…Plastoquinone or its methylated form covalently bound to the membrane-penetrating decyltriphenylphosphonium cation (SkQ1 and SkQ3) retarded the senescence of…”
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Chitosan-induced programmed cell death in plants by Vasil’ev, L. A., Dzyubinskaya, E. V., Zinovkin, R. A., Kiselevsky, D. B., Lobysheva, N. V., Samuilov, V. D.

“…Chitosan, CN − , or H 2 O 2 caused the death of epidermal cells (EC) in the epidermis of pea leaves that was detected by monitoring the destruction of cell…”
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Extracellular oxidases of the lignin-degrading fungus Panus tigrinus by Cadimaliev, D A, Revin, V V, Atykyan, N A, Samuilov, V D

“…Two extracellular oxidases (laccases) were isolated from the extracellular fluid of the fungus Panus (Lentinus) tigrinus cultivated in low-nitrogen medium…”
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Effect of Wood Modification on Lignin Consumption and Synthesis of Lignolytic Enzymes by the Fungus Panus (Lentinus) tigrinus by Kadimaliev, D A, Revin, V V, Atykyan, N A, Samuilov, V D

“…Lignin consumption and synthesis of lignolytic enzymes by the fungus Panus (Lentinus) tigrinuscultivated on solid phase (modified and unmodified birch and pine…”
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