S. V. Litvinov scite author profile

Abstract. Digitalis purpurea L. is the source of a number of biologically active substances used for medical purposes. Agrobacterium rhizogenes-transformed plants show changes in the secondary metabolism. The influence of acute exposure to ionizing radiation on the modification of the pigment system and accumulation of flavonoids in Ritransformed regenerated plants in vitro was studied. A week after the exposure to the stressor, changes in the number of chlorophylls, carotenoids and flavonoids were observed. A month later, the amount of carotenoids and the ratio of chlorophyll a/b decreased, which indicated a decrease in the photosynthetic capacity of the irradiated plants. The synthesis of flavonoids was reduced as well. But in the second passage, we saw an increase in all the parameters studied in relation to the non-irradiated samples. It showed the development of a long-acting adaptive response of plants. A nonlinear dose dependence of acute X-ray irradiation influence on in vitro D. purpurea was shown. The transformed plants were found to be more resistant to the damaging effects of radiation. We reasoned that the exposure to ionizing radiation in a certain dose interval could be used to stimulate the accumulation of biologically active substances of in vitro D. purpurea.

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Induction of Arabidopsis thaliana Resistance to Pathogenic Bacteria by Lipopolysaccharide and Salicylic Acid

Shilina

Gushcha

Molozhava

et al. 2018

Cytol. Genet.

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Relative radiosensitivity of Arabidopsis Thaliana Atmsh2 SALK_002708 mutant in the sublethal dose range of radiation

Litvinov¹,

Rashydov²

2018

Nucl. Phys. At. Energy

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Ефективна репарація індукованих опроміненням пошкоджень ДНК є важливим фактором радіостійкості рослин. З огляду на те, що роль репарації помилково спарених нуклеотидів (MMR) у системній реакції рослин на дію сублетальних доз іонізуючої радіації ще недостатньо вивчена, було проведене дослідження впливу випромінювання з низькою іонізуючою здатністю в дозах до 21 Гр включно на накопичення біомаси рослинами Arabidopsis thaliana Atmsh2-/-, дефектними за одним з ключових компонентів MMR-репарації, білком MSH2. Встановлено, що мутант Atmsh2 SALK_002708 більш чутливий порівняно з рослинами дикого типу до дії сублетальних доз радіації як при гострому, так і при фракціонованому опроміненні. Зміни радіочутливості мутантних рослин за дії різних доз та при їхньому фракціонуванні можуть бути пов'язані з транскрипційною відповіддю на опромінення генів, що кодують білки репарації ДНК.

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S. V. Litvinov

Main repair pathways of double-strand breaks in the genomic DNA and interactions between them

X-Ray Effects on Stress Response of the Ri-Transformants in Vitro Digitalis Purpurea L

Induction of Arabidopsis thaliana Resistance to Pathogenic Bacteria by Lipopolysaccharide and Salicylic Acid

Relative radiosensitivity of Arabidopsis Thaliana Atmsh2 SALK_002708 mutant in the sublethal dose range of radiation

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