Search Results - "Veremeichik, G N"

Decreased ROS level and activation of antioxidant gene expression in Agrobacterium rhizogenes pRiA4-transformed calli of Rubia cordifolia by Shkryl, Y. N, Veremeichik, G. N, Bulgakov, V. P, Gorpenchenko, T. Y, Aminin, D. L, Zhuravlev, Y. N

“…Microbe-plant interactions often lead to a decrease in the reactive oxygen species (ROS) level of plant cells, which allows pathogen survival through the…”
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Induction of anthraquinone biosynthesis in Rubia cordifolia cells by heterologous expression of a calcium-dependent protein kinase gene by Shkryl, Y.N., Veremeichik, G.N., Bulgakov, V.P., Zhuravlev, Y.N.

“…Calcium‐dependent protein kinases (CDPKs) play an important role in plant cell responses to stress and pathogenic attack. In this study, we investigated the…”
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rolC gene increases caffeoylquinic acid production in transformed artichoke cells by Vereshchagina, Y. V, Bulgakov, V. P, Grigorchuk, V. P, Rybin, V. G, Veremeichik, G. N, Tchernoded, G. K, Gorpenchenko, T. Y, Koren, O. G, Phan, N. H. T, Minh, N. T, Chau, L. T, Zhuravlev, Y. N

“…Caffeoylquinic acids are found in artichokes, and they are currently considered important therapeutic or preventive agents for treating Alzheimer’s disease and…”
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Molecular cloning and characterization of seven class III peroxidases induced by overexpression of the agrobacterial rolB gene in Rubia cordifolia transgenic callus cultures by Veremeichik, G. N., Shkryl, Y. N., Bulgakov, V. P., Avramenko, T. V., Zhuravlev, Y. N.

“…Here, seven new class III peroxidase genes of Rubia cordifolia L., RcPrx01 – RcPrx07 , were isolated and characterized. Expression of the Prx genes was studied…”
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High production of flavonols and anthocyanins in Eruca sativa (Mill) Thell plants at high artificial LED light intensities by Veremeichik, G.N., Grigorchuk, V.P., Makhazen, D.S., Subbotin, E.P., Kholin, A.S., Subbotina, N.I., Bulgakov, D.V., Kulchin, Y.N., Bulgakov, V.P.

“…•High monochromatic and binary red, green, and blue lights did not affect growth.•High levels of green and blue light resulted in a strong increase in root…”
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Isoflavonoid biosynthesis in cultivated and wild soybeans grown in the field under adverse climate conditions by Veremeichik, G.N., Grigorchuk, V.P., Butovets, E.S., Lukyanchuk, L.M., Brodovskaya, E.V., Bulgakov, D.V., Bulgakov, V.P.

“…•Wild and cultivated soya (Hodgson, Hefeng25 and Sfera) were grown in the risk zone.•Zoned soya have high productivity (Sfera) and fungal tolerance (Sfera and…”
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Inhibition of the JAZ1 gene causes activation of camalexin biosynthesis in Arabidopsis callus cultures by Makhazen, D.S., Veremeichik, G.N., Shkryl, Y.N., Tchernoded, G.K., Grigorchuk, V.P., Bulgakov, V.P.

“…Indole alkaloid camalexin has potential medicinal properties such as suppressing the viability of leukemic but not normal cells. Camalexin is not produced in…”
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Increase in isoflavonoid content in Glycine max cells transformed by the constitutively active Ca2+ independent form of the AtCPK1 gene by Veremeichik, G.N., Grigorchuk, V.P., Silanteva, S.A., Shkryl, Y.N., Bulgakov, D.V., Brodovskaya, E.V., Bulgakov, V.P.

“…Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses…”
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Activation of anthraquinone biosynthesis in long-cultured callus culture of Rubia cordifolia transformed with the rolA plant oncogene by Veremeichik, G.N., Bulgakov, V.P., Shkryl, Y.N., Silantieva, S.A., Makhazen, D.S., Tchernoded, G.K., Mischenko, N.P., Fedoreyev, S.A., Vasileva, E.A.

“…[Display omitted] •rolA-transgenic Rubia cordifolia calli show stable and elevated growth over 14 years.•rolA-calli had increased anthraquinone yield from…”
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Inactivation of the auto-inhibitory domain in Arabidopsis AtCPK1 leads to increased salt, cold and heat tolerance in the AtCPK1-transformed Rubia cordifolia L cell cultures by Veremeichik, G.N., Shkryl, Y.N., Gorpenchenko, T.Y., Silantieva, S.A., Avramenko, T.V., Brodovskaya, E.V., Bulgakov, V.P.

“…Calcium-dependent protein kinases (CDPKs) are essential regulators of plant growth and development, biotic and abiotic stress responses. Inactivation of the…”
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Effect of the rol genes from Agrobacterium Rhizogenes on the content and structure of pectic substances and glycanase activity in Rubia Cordifolia transgenic cell cultures by Günter, E. A, Popeyko, O. V, Shkryl, Yu. N, Veremeichik, G. N, Bulgakov, V. P, Ovodov, Yu. S

“…The expression of the rolB gene was found to increase the pectic yield in Rubia cordifolia cells, while the rolC gene inhibited the pectin production, which…”
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Managing activity and Ca2+ dependence through mutation in the Junction of the AtCPK1 coordinates the salt tolerance in transgenic tobacco plants by Veremeichik, G.N., Shkryl, Y.N., Silantieva, S.A., Gorpenchenko, T.Y., Brodovskaya, E.V., Yatsunskaya, M.S., Bulgakov, V.P.

“…Calcium-dependent protein kinases (CDPKs) are Ca2+ decoders in plants. AtCPK1 is a positive regulator in the plant response to biotic and abiotic stress…”
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RNA inhibition of the JAZ9 gene increases the production of resveratrol in grape cell cultures by Makhazen, Dmitrii S., Veremeichik, G. N., Shkryl, Y. N., Grigorchuk, V. P., Tchernoded, G. K., Degtyarenko, A. I., Bulgakov, V. P.

“…In the human diet, plants of the genus Vitis are considered the main source of resveratrol, which possesses promising pharmacological activities. In plants,…”
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Increase of anthraquinone content in Rubia cordifolia cells transformed by native and constitutively active forms of the AtCPK1 gene by Shkryl, Yury N, Veremeichik, G N, Makhazen, D S, Silantieva, S A, Mishchenko, N P, Vasileva, E A, Fedoreyev, S A, Bulgakov, V P

“…Overexpression of both native and mutant forms of AtCPK1 in Rubia cordifolia cells increased anthraquinone production and transcript abundance of the RcIPPI,…”
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Expression profiles of calcium-dependent protein kinase genes (CDPK1–14) in Agrobacterium rhizogenes pRiA4-transformed calli of Rubia cordifolia under temperature- and salt-induced stresses by Veremeichik, G.N., Shkryl, Y.N., Pinkus, S.A., Bulgakov, V.P.

“…Agrobacterium rhizogenes genetically transform plant cells naturally via horizontal gene transfer by the introduction of T-DNA from the Ri plasmid into genomic…”
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The production of class III plant peroxidases in transgenic callus cultures transformed with the rolB gene of Agrobacterium rhizogenes by Shkryl, Y.N., Veremeichik, G.N., Bulgakov, V.P., Avramenko, T.V., Günter, E.A., Ovodov, Y.S., Muzarok, T.I., Zhuravlev, Y.N.

“…•The rolB gene activates class III peroxidase production in plant cell cultures.•The rolB causes a dose-dependent effect on expression and activity of…”
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Silicon Crystals Formation Using Silicatein-Like Cathepsin of Marine Sponge Latrunculia oparinae by Kamenev, D G, Shkryl, Y N, Veremeichik, G N, Golotin, V A, Naryshkina, N N, Timofeeva, Y O, Kovalchuk, S N, Semiletova, I V, Bulgakov, V P

“…The cDNA fragment encoding the catalytic domain of the new silicatein-like cathepsin enzyme LoCath was expressed in a strain Top10 of Escherichia coli,…”
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Induction of resveratrol biosynthesis in Vitis amurensis cells by heterologous expression of the Arabidopsis constitutively active, Ca2+-independent form of the AtCPK1 gene by Veremeichik, G.N., Grigorchuk, V.P., Shkryl, Y.N., Bulgakov, D.V., Silantieva, S.A., Bulgakov, V.P.

“…[Display omitted] •Mutant isoforms of the AtCPK1 gene were overexpressed in V. amurensis calli.•Constitutively active isoform of the AtCPK1 gene stimulates…”
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Biomimetic Synthesis of Nanosized Silica Structures on a Substrate with Silicatein by Shkryl, Y. N., Semiletova, I. V., Nepomnyaschiy, A. V., Kovalchuk, S. N., Veremeichik, G. N., Avramenko, T. V., Bulgakov, V. P., Shchipunov, Y. A., Voznesenskiy, S. S., Kozhemyako, V. B.

“…Using atomic force microscopy (AFM), the formation of nanosized silica structures on a substrate, catalyzed by the recombinant silicatein LoSilA1 from the…”
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Differential expression of calcium-dependent protein kinase genes (CDPK1–14) in Rubia cordifolia callus cultures transformed with the rolB and rolC genes by Shkryl, Y.N., Veremeichik, G.N., Silantieva, S.A., Bulgakov, V.P.

“…Integration of Agrobacterium rhizogenes T-DNA region leads to multiple changes in the physiology and biochemistry of the transformed plant cells. We have…”
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