Natalia Alekseevna Sanina

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Natalia Alekseevna



Publications in SciGraph latest 50 shown

  • 2022-07-05 Rare-Earth Metal (Pr(III), Тb(III), Ho(III), and Er(III)) Complexes with 2-Mercaptopyridine-N-oxide: Synthesis, Structures, and Properties in RUSSIAN JOURNAL OF COORDINATION CHEMISTRY
  • 2020-01 Identification of the Products of the Reaction of Nitrosyl Iron Complexes with Phosphoenolpyruvic Acid by Mass Spectrometry in RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B
  • 2019-12 Synthesis, properties, and antibacterial activity of a new nitric oxide donor — a nitrosyl iron complex with 5-phenyl-1H-1,2,4-triazole-3-thiol in RUSSIAN CHEMICAL BULLETIN
  • 2019-12 TDDFT-modeling of theoretical UV spectra of binuclear sulfur-containing iron nitrosyl clusters and products of their decomposition in RUSSIAN CHEMICAL BULLETIN
  • 2019-09 Antioxidant Activity of Tetranitrosyl Iron Complex with Thiosulfate Ligands and Its Effect on Catalytic Activity of Mitochondrial Enzymes In vitro in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2019-05 Antibacterial activity of [1Fe-2S]- and [2Fe-2S]-nitrosyl complexes as nitric oxide donors in RUSSIAN CHEMICAL BULLETIN
  • 2019-05 Anticancer Activity of Dinitrosyl Iron Complex (NO Donor) on the Multiple Myeloma Cells in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2018-11 Effect of Dinitrosyl Iron Complexes (NO Donors) on the Metabolic Processes in Human Fibroblasts in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2018-09 Stabilization of dinitrosyl iron complexes under matrix isolation conditions: solvent and polymer effects on the synthesis of composites based on poly(methyl methacrylate) and iron complexes [Fe2(μ-NCS-R)2(NO)4] in RUSSIAN CHEMICAL BULLETIN
  • 2017-11 The inhibitory effect of dinitrosyl iron complexes (NO donors) on myeloperoxidase activity in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2017-10 Quantum chemical modeling of possible reactions of mononuclear iron nitrosyl complex [Fe(SC(NH2)2)2(NO)2]Cl•H2O in an aqueous solution in RUSSIAN CHEMICAL BULLETIN
  • 2017-09 Bis(4-nitrobenzenethiolato)tetranitrosyldiiron: synthesis, structure, and pharmacological activity of a new nitric oxide (NO) donor in RUSSIAN CHEMICAL BULLETIN
  • 2017-08 NO-donating and hemolytic activity of tetranitrosyl iron complexes with ligands of the 2-mercaptopyridine series in RUSSIAN CHEMICAL BULLETIN
  • 2017-05 Features of the decomposition of the neutral nitrosyl iron complexes with aryl-containing thiolate ligands in various solvents. Reaction with glutathione in RUSSIAN CHEMICAL BULLETIN
  • 2017-03 Study on the decomposition of iron nitrosyl complex of μ-N–C–S type and its reaction with GSH in aqueous solution in DOKLADY CHEMISTRY
  • 2017-03 Two decomposition mechanisms of nitrosyl iron complexes [Fe2(μ-SR)(NO)4] in RUSSIAN CHEMICAL BULLETIN
  • 2016-09-30 Photochromic and Magnetic Nanocomposites Based on Epoxy and Polycarbonate Matrices in JOURNAL OF INORGANIC AND ORGANOMETALLIC POLYMERS AND MATERIALS
  • 2016-05 A new class of nitric oxide donors in HERALD OF THE RUSSIAN ACADEMY OF SCIENCES
  • 2016-03 Nitric oxide donation by the binuclear tetranitrosyl iron complexes in the presence of erythrocytes in RUSSIAN CHEMICAL BULLETIN
  • 2014-09 Influence of ligand lipophilicity on the NO-donating ability of the binuclear tetranitrosyl iron complexes in an erythrocyte suspension in RUSSIAN CHEMICAL BULLETIN
  • 2013-07-12 Nitrogen oxide is involved in the regulation of the Fe-S cluster assembly in proteins and the formation of biofilms by Escherichia coli cells in BIOLOGY BULLETIN
  • 2012-12 Revealing of the cation-binding sites on the surface of hemoglobin in its reaction with the NO donor, the nitrosyl iron complex {Fe2[S(CH2)2NH3]2(NO)4}SO4·2.5H2O in RUSSIAN CHEMICAL BULLETIN
  • 2011-07 Thermally induced paramagnetism of spiropyran salts in RUSSIAN CHEMICAL BULLETIN
  • 2011-06 Effect of the solvent on the hydrolysis of the iron nitrosyl complex {Fe2[S(CH2)2NH3]2(NO)4}SO4·2.5H2O: spectroscopic and kinetic investigations of its monomer and dimer forms in RUSSIAN CHEMICAL BULLETIN
  • 2010-12-24 Reversible NO-catalyzed destruction of the Fe-S cluster of the FNR[4Fe-4S]2+ transcription factor: A way to regulate the aidB gene activity in Escherichia coli cells cultured under anaerobic conditions in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2010-12 Kinetic regularities of erythrocyte hemolysis and hemoglobin oxidation under the action of sulfur-nitrosyl iron complexes as nitric oxide donors in RUSSIAN CHEMICAL BULLETIN
  • 2010-12 Effect of hemoglobin on the NO-donor ability of μ2-S-bis(pyrimidine-2-thiolato)tetranitrosyldiiron in RUSSIAN CHEMICAL BULLETIN
  • 2010-10-16 Magnetic properties of ordered nanowires of the quasi-two-dimensional antiferromagnet SpFeMn(C2O4)3 in PHYSICS OF THE SOLID STATE
  • 2010-10 Ferrocytochrome c and deoxyhemoglobin in the reaction with the iron cysteamine nitrosyl complex {Fe2[S(CH2)2NH3]2(NO)4}SO4·2.5H2O in RUSSIAN CHEMICAL BULLETIN
  • 2010-08-17 Fnr[4Fe-4S]2+ protein regulates the aidB gene expression in Escherichia coli cultured under anaerobic conditions in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2010-08 Reaction of ferricytochrome c with the iron nitrosyl complex {Fe2[S(CH2)2NH3]2(NO)4}SO4 • 2.5H2O in RUSSIAN CHEMICAL BULLETIN
  • 2010-08 Effect of crystallization water on the magnetic properties of crystals composed of complexes of chromium(III) oxalate with spiropyran cations of indoline series in RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B
  • 2010-03 Ferromagnetism, paramagnetism, and thermally induced magnetism in photomagnetic CrIII/MnII and CrIII oxalates with the 7-methyl-3,3-diphenyl-3H-pyrano[3,2-f]quinolinium cation in RUSSIAN CHEMICAL BULLETIN
  • 2009-12 Ordered nanowires of photochromic compounds based on spiropyrane and transition metal complexes in NANOBIOTECHNOLOGY REPORTS
  • 2009-10 Photostimulated electron transfer and its action on paramagnetism of Sp3Cr(C2O4)3 single crystals in JOURNAL OF EXPERIMENTAL AND THEORETICAL PHYSICS
  • 2009-09 Effect of nitrosyl iron–sulfur complexes on the activity of hydrolytic enzymes in PHARMACEUTICAL CHEMISTRY JOURNAL
  • 2009-04-28 Sensitization of E. coli cells to UV irradiation by NO under hypoxic conditions in DOKLADY BIOLOGICAL SCIENCES
  • 2009-03-21 Formation of mononuclear nitrosyl intermediates during hydrolysis of [Na2[Fe2(μ-S2O3)2(NO)4]·4H2O, a donor of nitrogen monoxide in DOKLADY CHEMISTRY
  • 2009-03 Structure of the binuclear tetranitrosyl iron complexes with a pyrimidin-2-yl ligand of the μ2-S type and the pH effect on its NO-donor ability in aqueous solutions in RUSSIAN CHEMICAL BULLETIN
  • 2009-03 Regularities in the stabilization by hemoglobin of binuclear iron complexes [Fe2(μ-N—C—SR)2(NO)4] containing benzimidazolylthiol and benzothiazolylthiol ligands in RUSSIAN CHEMICAL BULLETIN
  • 2009-01 Formation of nitrosothiols by the reaction of different forms of hemoglobin with (tetranitrosyl)bis(pyrimidin-2-ylthio)diiron in RUSSIAN CHEMICAL BULLETIN
  • 2007-09 Magnetic properties of the tetranitrosyl-iron complex Fe2(SC3H5N2)2(NO)4 in PHYSICS OF THE SOLID STATE
  • 2007-06 Induction of double-stranded DNA breaks in mouse blood leukocytes by treating cells with iron-nitrosyl complexes in DOKLADY BIOCHEMISTRY AND BIOPHYSICS
  • 2007-04 Hemoglobin-stabilized tetranitrosyl binuclear iron complex with pyridine-2-yl in aqueous solutions in RUSSIAN CHEMICAL BULLETIN
  • 2007-01 Synthesis, structure, and NO-donor activity of the paramagnetic complex [Fe2(SC3H5N2)2(NO)4] as a model of nitrosyl [2FE-2S] proteins in RUSSIAN CHEMICAL BULLETIN
  • 2006-07 Intracellular iron ions regulate the genetic activity of NO-donating agents in RUSSIAN JOURNAL OF GENETICS
  • 2005-05 Formation of Dinitrosyl Iron Complex Is a Necessary Step in the Realization of the Na2[Fe2(µ2-S2O3)2(NO)4] · 4H2O Genetic Activity in DOKLADY BIOLOGICAL SCIENCES
  • 2004-08 Genetic Signal Transduction by Nitrosyl-Iron Complexes in Escherichia coli in BIOCHEMISTRY (MOSCOW)
  • 2000 Magnetism in some layer molecular magnets as revealed by Mössbauer spectroscopy in HYPERFINE INTERACTIONS
  • 1999-11 Low-temperature magnetic properties of the 2D molecular ferrimagnet N(n-C5H11)4 [FeIIFeIII(C2O4)3] in JETP LETTERS
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