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Для сотрудников ФИЦ ПХФ и МХ
Anastasia A. Balakina
InterestsMedical chemistry. Physiologically active compounds. Antioxidant system, anti- and pro-oxidants, oxidative stress. Transcription factor Nrf2. Regulation of Nrf2-dependent processes under the action of antitumor and cardioprotective compounds.
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Amozova, V.I., Balakina, A.A., Mishchenko, D.V., Sanina N.A. EFFECT OF THE DINITROSYL IRON COMPLEX WITH N-ETHYLTHIOUREA ON ROS AND NO INTRACELLULAR LEVELS AND CASPASE ACTIVITY IN HELA TUMOR CELLS. Russ Chem Bull 72, 1066–1074 (2023). https://doi.org/10.1007/s11172-023-3872-9 (Web of Science, Q4)
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Balakina A.A., Prikhodchenko T.R., Yakushev I.A., Amozova V.I., Mumyatova V.A., Kornev A.B., Terent´ev A.A., Gadomsky S.Ya., Dorovatovskii P.V., Fedorov B.S., Mishchenko D.V. STRUCTURE AND BIOLOGICAL ACTIVITY OF 2-ETHYL-3-HYDROXY-6-METHYLPYRIDINIUM NITROXYSUCCINATE // Izv. Akad. Nauk, Ser. Khim., 2023, No. 7, 1618-1631 [Russ. Chem. Bull., Int. Ed., 2023, 72, No. 7] (Web of Science, Q4)
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Sanina N.A., Yakuschenko I.K., Gadomsky S.Ya., Utenyshev A.N., Dorovatovskii P.V., Lazarenko V.A., Emel'yanova N.S., Zagainova E.A., Ovanesyan N.S., Mumyatova V.A., Balakina A.A., Terent'ev A.A., Aldoshin S.M. SYNTHESIS, STRUCTURE AND ANTIBACTERIAL ACTIVITY OF DINITROSYL IRON COMPLEXES (DNICS) DIMERS FUNCTIONALIZED WITH 5-(NITROPHENYL)-4-H-1,2,4-TRIAZOLE-3-THIOLYLS // Polyhedron, 2022, Т. 220, 115822, https://doi.org/10.1016/j.poly.2022.115822 (Web of Science, Q2)
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Sanina N.A., Sulimenkov I., Emel’yanova N.S., Konyukhova A.S., Stupina T. S., Balakina A.A., Terentiev A.A., Aldoshin S.M. CATIONIC DINITROSYL IRON COMPLEXES WITH THIOUREA EXHIBIT SELECTIVE TOXICITY TO BRAIN TUMOR CELLS IN VITRO //Dalton Transactions., v.51, p.8893-8905, 2022, https://doi.org/10.1039/D2DT01011A (Web of Science, Q1)
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Sanina N.A.; Starostina A.A.; Utenyshev A.N.; Dorovatovskii P.V.; Emel’yanova N.S.; Krapivin V.B.; Luzhkov V.B.; Mumyatova V.A.; Balakina A.A.; Terentiev A.A.; Aldoshin S.M. NOVEL TYPE OF TETRANITROSYL IRON SALT: SYNTHESIS, STRUCTURE AND ANTIBACTERIAL ACTIVITY OF COMPLEX [FEL’2(NO)2][FEL’L”(NO)2] WITH L’-THIOBENZAMIDE AND L”-THIOSULFATE // Molecules 2022, 27, 6886. https://doi.org/10.3390/molecules27206886 (Web of Science, Q2)
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Kurmaz, S.V.; Ignatiev, V.M.; Emel’yanova, N.S.; Kurmaz, V.A.; Konev, D.V.; Balakina, A.A.; Terentyev, A.A. NEW NANOSIZED SYSTEMS DOXORUBICIN—AMPHIPHILIC COPOLYMERS OF N-VINYLPYRROLIDONE AND (DI)METHACRYLATES WITH ANTITUMOR ACTIVITY. Pharmaceutics 2022, 14, 2572. https://doi.org/10.3390/pharmaceutics14122572 (Web of Science, Q1)
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Prikhodchenko, T.R., Balakina, A.A., Amozova, V.I. et al. Antioxidant properties of 3-hydroxy-2-ethyl-6-methylpyridinium nitroxysuccinate upon the activation of oxidative processes by antitumor drug Cisplatin in vitro and in vivo. Russ Chem Bull 71, 2629–2635 (2022). https://doi.org/10.1007/s11172-022-3692-y (Web of Science, Q4)
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Chugunova E., Matveeva V., Tulesinova A., Iskanderov E., Akylbekov N., Dobrynin A., Appazov N., Boltayeva L., Duisembekov B., Zhanakov M., Aleksandrova Yu., Sashenkova T., Klimanova E., Allayarova U., Balakina A., Mishchenko D., Burilov A., Neganova M. WATER-SOLUBLE SALTS BASED ON BENZOFUROXAN DERIVATIVES – SYNTHESIS AND BIOLOGICAL ACTIVITY // Int. J. Mol. Sci. 2022, 23, 14902. https://doi.org/10.3390/ijms232314902 (Web of Science, Q1)
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Balakina A.A., Prikhodchenko T.R., Amozova V.I., Mumyatova V.A., Stupina T.S., Neganova M.E., Yakushev I.A., Kornev A.B., Gadomsky S.Ya., Fedorov B.S., Mishchenko D.V. ANTIOXIDANT PROPERTIES OF A NEW PYRIDOXINE DERIVATIVE WITH NO-DONATING ABILITY // Free Rad. Biol. Med., V. 177, 2021, P. S108-S109 DOI: 10.1016/j.freeradbiomed.2021.08.164 (Web of Science, Q1)
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Balakina A., Prikhodchenko T., Amozova V., Stupina T., Mumyatova V., Kornev A., Gadomsky S., Fedorov B., Mishchenko D., Neganova M., Yakushev I. PREPARATION, ANTIOXIDANT PROPERTIES AND ABILITY TO INCREASE INTRACELLULAR NO OF A NEW PYRIDOXINE DERIVATIVE B6NO // Antioxidants. 2021. Т. 10. № 9. С. 1451. https://doi.org/10.3390/antiox10091451 (Web of Science, Q1)
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Sen', V.D., Balakina, A.A., Stupina, T.S., Terent'ev, A.A., Pliss, E.M. AMPHIPHILIC CHITOSAN–POLYAMINOXYLS LOADED WITH DAUNORUBICIN: SYNTHESIS, ANTIOXIDANT ACTIVITY, AND DRUG DELIVERY CAPACITY // International Journal of Biological Macromolecules, 2021, 193, P. 965–979 https://doi.org/10.1016/j.ijbiomac.2021.10.170 (Web of Science, Q1)
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Balakina A.A., Raevskaya T.A., Pavlov V.S., Mumyatova V.A., Goncharova S.A., Terent’ev A.A. NRF2-DEPENDENT EXPRESSION OF GLUTATHIONE ANTIOXIDANT SYSTEM GENES AND REDOX STATUS IN CELLS OF IN VIVO DRUG-RESISTANT MURINE P388 LEUKEMIA STRAINS // Bulletin of Experimental Biology and Medicine. 2020. Т. 169. № 2. С. 249-253. doi: 10.1007/s10517-020-04861-2. (Web of Science, Q4)
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Smolobochkin A., Gazizov A., Akylbekov N., Sazykina M., Chugunova E., Sazykin I., Gildebrant A., Voronina Ju., Burilov A., Karchava Sh., Klimova M., Voloshina A., Sapunova A., Klimanova E., Sashenkova T., Allayarova U., Balakina A., Mishchenko D. SYNTHESIS OF NOVEL 2-(HET)ARYLPYRROLIDINE DERIVATIVES AND EVALUATION OF THEIR ANTICANCER AND ANTI-BIOFILM ACTIVITY // Molecules. 2019. Т. 24. № 17. P. 3086. doi: 10.3390/molecules24173086 (Web of Science, Q2)
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Balakina A.A., Raevskaya T.A., Pavlov V.S., Mumyatova V.A., Goncharova S.A., Terent’ev A.A. ACTIVITY OF ANTIOXIDANT ENZYMES AND CONTENT OF REDUCED GLUTATHIONE IN CELLS OF DRUG-RESISTANT MURINE LEUKEMIA P388 STRAINS // Bulletin of Experimental Biology and Medicine. 2019. Т. 167. № 3. С. 339-342. doi: 10.1007/s10517-019-04522-z. (Web of Science, Q4)
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Patent. Mishchenko D.V., Gadomskij S.Ya., Yarmolenko A. I., Eremeev A. B., Balakina A. A., Neganova M. E., Areshidze D. A. BIS-(4,5-OXYMETHYL-2-METHYL-3-OXY)PYRIDINIUM SALT OF 2-NITROXYBUTANE-1,4-DIIODIC ACID AND METHOD FOR PRODUCTION THEREOF RU 2712914 C2, 03.02.2020.
Scientific Departments
- Institute of Physiologically Active Compounds
- Department of Combustion and Explosion
- Department of Kinetics and Catalysis
- Laboratory of Synthesis of Organic Polyfunctional Materials
- Laboratory of EPR-Spectroscopy of Macromolecules
- Laboratory of Electrochemical Dynamics and Electrolytic Systems
- Laboratory of Molecular Spectroscopy
- Laboratory of Radical Liquid-Phase Reactions
- Laboratory of Complex Catalysts
- Laboratory of Functional Materials for Electronics and Medicine
- Group of Kinetics of Cluster Processes
- Department of Polymers and Composite Materials
- Chemical Engineering Department
- Laboratory of Catalytic Synthesis of Organic Compounds
- Laboratory of Petrochemical Processes
- Laboratory of Physico-Chemical engineering of composite materials
- Laboratory of Gas Chemistry Processes
- Group of Heterogeneous Catalysis Engineering
- Group of Business and Techno-economic Research
- Multiple-access Center “New Petrochemical Processes, Polymer Composites and Adhesives”
- Department of Extreme States of Matter
- Laboratory of Computational Fluid Dynamics
- High Dynamic Pressures Laboratory
- Laboratory of Thermal Properties of Dense Plasma
- Laboratory of Experimental Thermal Physics
- Laboratory of Detonation
- Laboratory of Matter State Equations
- Laboratory of Rheological Properties of Condensed Media upon Impulse Impacts
- Laboratory of Electromagnetic Processes in Shock-Compressed Media
- Group of Chemistry of Impulse Impacts
- Group of Chemical Physics of low temperatures
- Department of Structure of Matter
- Laboratory of Structural Chemistry
- Laboratory of Cryochemistry and Radiation Chemistry
- Laboratory of Kinetic ESR and Molecular Spectroscopy
- Laboratory of Molecular Conductors and Magnets
- Joint Laboratory of Photodynamics of Nanobiostructures
- Group of the Mössbauer spectroscopy and magnetochemistry
- Group of magnetic and spin logical processes and devices
- Radiation Exposure Group "Gammatok-100"
- Department of Nanophotonics
- Department of Functional Materials for Chemical Energy Sources
- Laboratory of Superionics
- Complex of Laboratories for Hydrogen Materials Science
- Laboratory of Materials Engineering for Solid State Devices
- Laboratory of Laser Electrochemistry
- Laboratory of Solid-State Electrochemical Systems
- Laboratory of Electrode Processes in Liquid Systems
- Group of Special Materials
- Department of Kinetics of Chemical and Biological Processes
- Laboratory of Chemical Physics of Ferments
- Laboratory of Molecular Biology
- Laboratory of Kinetic Modeling
- Laboratory of Biologically Active Compounds
- Laboratory of Physico-Chemical Biology of Physiologically Active Compounds
- Group of Stable Radicals
- Group of Free Radical Processes in Biosystems
- Group of Molecular Modeling of Biochemical Processes
- Screening and Preclinical Studies Unit
- Theoretical Department
- Research Center of Nanostructured Materials for Energy Conversion and Storage
- Competence Center of National Technology Initiative