Works matching DE "NITROSYL compounds"
Results: 152
Modeling Reactivity of Nitrite and Nitrous Acid at a Phenolate Bridged Dizinc(II) Site: Insights into NO Signaling at Zinc.
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- Chemistry - A European Journal, 2023, v. 29, n. 58, p. 1, doi. 10.1002/chem.202301409
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Bimetallic Ruthenium Nitrosyl Complexes with Enhanced Two‐Photon Absorption Properties for Nitric Oxide Delivery.
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- Chemistry - A European Journal, 2022, v. 28, n. 62, p. 1, doi. 10.1002/chem.202201692
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Spectroscopic Signature of Dynamical Instability of the Aqueous Complex in the Brown‐Ring Nitrate Test**.
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- Chemistry - A European Journal, 2022, v. 28, n. 54, p. 1, doi. 10.1002/chem.202200923
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Thionitrite and Perthionitrite in NO Signaling at Zinc.
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- Angewandte Chemie, 2021, v. 133, n. 39, p. 21354, doi. 10.1002/ange.202104906
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Four‐Coordinate Copper Halonitrosyl {CuNO}<sup>10</sup> Complexes.
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- Angewandte Chemie, 2019, v. 131, n. 30, p. 10331, doi. 10.1002/ange.201904732
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Effect of Iron Nitrosyl Complexes, No Donors, on the Activity of Ca-Atpase of Sarcoplasmic Reticulum and Phosphodiesterase of Cyclic Guanosine Monophosphate.
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- Pharmaceutical Chemistry Journal, 2013, v. 47, n. 9, p. 455, doi. 10.1007/s11094-013-0991-5
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Effects of nitrosyl complexes of iron with functional S-ligands on the activity of hydrolytic enzymes.
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- Pharmaceutical Chemistry Journal, 2012, v. 45, n. 11, p. 651, doi. 10.1007/s11094-012-0696-1
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A New Heteroleptic Complex of Nitrosyl Ruthenium with Ethylenediamine and the NO–Ru–F Trans-Coordinate: Synthesis, Structure, and Photoinduced Linkage Isomerization.
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- Journal of Structural Chemistry, 2024, v. 65, n. 7, p. 1404, doi. 10.1134/S0022476624070114
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SYNTHESIS, STRUCTURE, AND PROPERTIES OF THE NEW IRIDIUM(III) NITROSO COMPLEX: [Ir(NO)(AcOH)(AcO)<sub>2</sub>(NO<sub>2</sub>)<sub>2</sub>].
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- Journal of Structural Chemistry, 2023, v. 64, n. 2, p. 262, doi. 10.1134/S0022476623020105
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COORDINATION OF AN AMINO ALCOHOLIC SCHIFF BASE LIGAND TOWARD THE ZINC(II) ION: SPECTRAL, STRUCTURAL, THEORETICAL, AND DOCKING STUDIES.
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- Journal of Structural Chemistry, 2021, v. 62, n. 1, p. S8, doi. 10.1134/S0022476621130023
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COORDINATION OF AN AMINO ALCOHOLIC SCHIFF BASE LIGAND TOWARD THE ZINC(II) ION: SPECTRAL, STRUCTURAL, THEORETICAL, AND DOCKING STUDIES.
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- Journal of Structural Chemistry, 2021, v. 62, n. 1, p. S8, doi. 10.1134/S0022476621130023
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Effect of Nitrogen Dioxide on Strength and Heat Resistance of Poly-p-Aramid Fibers.
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- Fibre Chemistry, 2024, v. 55, n. 5, p. 299, doi. 10.1007/s10692-024-10480-8
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Recent Developments in Late Metal Nitrosyl Chemistry.
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- Comments on Inorganic Chemistry, 2012, v. 33, n. 5-6, p. 207, doi. 10.1080/02603594.2013.847828
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Fe Speciation in Iron Modified Natural Zeolites as Sustainable Environmental Catalysts.
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- Catalysts (2073-4344), 2019, v. 9, n. 10, p. 866, doi. 10.3390/catal9100866
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S-nitrosylated GAPDH mediates neuronal apoptosis induced by amyotrophic lateral sclerosis-associated mutant SOD1.
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- Animal Cells & Systems, 2016, v. 20, n. 6, p. 310, doi. 10.1080/19768354.2016.1259182
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Nanocarriers for Nitric Oxide Delivery.
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- Journal of Drug Delivery, 2011, p. 1, doi. 10.1155/2011/936438
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Reaction of ruthenium(II) complexes with 2,2-diphenyl-1-picrylhydrazyl (DPPH<sup>•</sup>) and hydroxyl radicals.
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- Canadian Journal of Chemistry, 2014, v. 92, n. 8, p. 788, doi. 10.1139/cjc-2014-0082
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Nitric Oxide Modulates HCN Channels in Magnocellular Neurons of the Supraoptic Nucleus of Rats by an S-Nitrosylation-Dependent Mechanism.
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- Journal of Neuroscience, 2016, v. 36, n. 44, p. 11320, doi. 10.1523/JNEUROSCI.1588-16.2016
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Nitrosonium Cation as a Cytotoxic Component of Dinitrosyl Iron Complexes with Thiol-containing Ligands (based on the Experimental Work on MCF7 Human Breast Cancer Cell Culture).
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- Cell Biochemistry & Biophysics, 2021, v. 79, n. 1, p. 93, doi. 10.1007/s12013-020-00962-x
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The Inhibiting Effect of Dinitrosyl Iron Complexes with Thiol-containing Ligands on the Growth of Endometrioid Tumours in Rats with Experimental Endometriosis.
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- Cell Biochemistry & Biophysics, 2019, v. 77, n. 1, p. 69, doi. 10.1007/s12013-019-00865-6
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The inhibitory effect of dinitrosyl iron complexes (NO donors) on myeloperoxidase activity.
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- Doklady Biochemistry & Biophysics, 2017, v. 477, n. 1, p. 389, doi. 10.1134/S1607672917060126
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Nitrosyl-heme and anion-arene complexes: structure, reactivity and spectroscopy.
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- Pure & Applied Chemistry, 2015, v. 87, n. 4, p. 379, doi. 10.1515/pac-2014-1203
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Comparison of pure and hybrid DFT functionals for geometry optimization and calculation of redox potentials for iron nitrosyl complexes with 'μ-SCN' bridging ligands.
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- Theoretical Chemistry Accounts: Theory, Computation, & Modeling, 2013, v. 132, n. 2, p. 1, doi. 10.1007/s00214-012-1316-6
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Comparative Analysis of Cytotoxic Activity of New Nitrosyl Iron—Sulfur Complexes in Human Tumor Cells In Vitro.
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- Bulletin of Experimental Biology & Medicine, 2020, v. 169, n. 1, p. 130, doi. 10.1007/s10517-020-04839-0
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Structure, nitric oxide (NO) generation and antitumor activity of binuclear tetranitrosyl iron complex with 4-aminothiophenolyl as nitrosyl ferredoxins mimic.
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- Journal of Coordination Chemistry, 2021, v. 74, n. 4-6, p. 743, doi. 10.1080/00958972.2020.1869222
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Coordination modes of salicylaldehyde derivatives in the ruthenium(II) nitrosyl and bis(2,2′-bipyridine) ruthenium(II) complexes.
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- Journal of Coordination Chemistry, 2020, v. 73, n. 8, p. 1306, doi. 10.1080/00958972.2020.1767289
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Synthesis and DFT calculations of new ruthenium(II) nitrosyl complexes using cis-fac-dichlorotetrakis(dimethylsulfoxide)ruthenium(II) precursor and different oximes as sources of nitrosyl ligand.
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- Journal of Coordination Chemistry, 2019, v. 72, n. 13, p. 2200, doi. 10.1080/00958972.2019.1647340
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Synthesis, structure and antitumor activity of the binuclear tetranitrosyl iron complex with 2-mercaptobenzthiazole – the nitric oxide donor (NO).
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- Journal of Coordination Chemistry, 2019, v. 72, n. 5-7, p. 972, doi. 10.1080/00958972.2019.1583331
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Synthesis, structure, NO donor activity of iron–sulfur nitrosyl complex with 2-aminophenol-2-yl and its antiproliferative activity against human cancer cells.
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- Journal of Coordination Chemistry, 2013, v. 66, n. 20, p. 3602, doi. 10.1080/00958972.2013.848980
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Synthesis, structure, DNA-binding, and nuclease activity of a 3d–4f mixed metal nitrosyl complex, [Pr(phen) 2 (MeOH)(H 2 O) 2 ][Fe(CN) 5 (NO)] · (Phen)(DMF)(MeOH)(H 2 O).
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- Journal of Coordination Chemistry, 2012, v. 65, n. 19, p. 3469, doi. 10.1080/00958972.2012.718075
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Room Temperature UV-Activated NO 2 and NO Detection by ZnO/rGO Composites.
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- Chemosensors, 2023, v. 11, n. 4, p. 227, doi. 10.3390/chemosensors11040227
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Effects of Vacancy Defects and the Adsorption of Toxic Gas Molecules on Electronic, Magnetic, and Adsorptive Properties of g−ZnO: A First-Principles Study.
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- Chemosensors, 2023, v. 11, n. 1, p. 38, doi. 10.3390/chemosensors11010038
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Reactions of fission products from a <sup>252</sup>Cf source with NO and mixtures of NO and CO in an inert gas.
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- Radiochimica Acta, 2019, v. 107, n. 7, p. 555, doi. 10.1515/ract-2018-3076
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The Effect of Combination of Red, Infrared and Blue Wavelengths of Low-Level Laser on Reduction of Abdominal Girth: A Before-After Case Series.
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- Journal of Lasers in Medical Sciences, 2017, v. 8, p. S22, doi. 10.15171/jlms.2017.s5
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SYNTHESIS AND CHARACTERIZATION OF ZINC (II) COMPLEXES WITH PYRUVIC ACID SALICYLHYDRAZONE.
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- Rasayan Journal of Chemistry, 2021, v. 14, n. 3, p. 1514, doi. 10.31788/RJC.2021.1436301
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Preparation, characterization, DNA/BSA interaction and computational binding analyses of a dinuclear, biopotency Pd+2 coordinated with 1,4-phenylenediamine and ethylenediamine as ligands.
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- Journal of the Iranian Chemical Society, 2021, v. 18, n. 5, p. 1147, doi. 10.1007/s13738-020-02098-4
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Antioxidant Effect of Carnosine and Carnosine Dinitrosyl Iron Complexes under the Conditions Modeling Peroxidation of Biomolecules.
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- Applied Biochemistry & Microbiology, 2024, v. 60, n. 5, p. 812, doi. 10.1134/S0003683824604529
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Dinitrosyl Iron Complexes with Glutathione Ligands Intercept Peroxynitrite and Protect Hemoglobin from Oxidative Modification.
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- Applied Biochemistry & Microbiology, 2021, v. 57, n. 4, p. 411, doi. 10.1134/S0003683821040098
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Thionitrosyl Complexes of Rhenium and Technetium with PPh 3 and Chelating Ligands—Synthesis and Reactivity.
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- Inorganics, 2024, v. 12, n. 8, p. 210, doi. 10.3390/inorganics12080210
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Nitrosyl/Diphenylphosphine/Amino Acid–Ruthenium Complexes as Inhibitors of MDA-MB-231 Breast Cancer Cells.
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- Inorganics, 2023, v. 11, n. 7, p. 270, doi. 10.3390/inorganics11070270
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Reddish Colour in Cooked Ham Is Developed by a Mixture of Protoporphyrins Including Zn-Protoporphyrin and Protoporphyrin IX.
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- Foods, 2022, v. 11, n. 24, p. 4055, doi. 10.3390/foods11244055
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An Assessment of Zeolite Framework Effect for Low-Temperature NO X Adsorbers.
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- Catalysts (2073-4344), 2023, v. 13, n. 6, p. 962, doi. 10.3390/catal13060962
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Adsorption and Photo-Degradation of Organophosphates on Sulfate-Terminated Anatase TiO 2 Nanoparticles.
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- Catalysts (2073-4344), 2023, v. 13, n. 3, p. 526, doi. 10.3390/catal13030526
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Heteroleptic Copper Complexes as Catalysts for the CuAAC Reaction: Counter-Ion Influence in Catalyst Efficiency.
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- Catalysts (2073-4344), 2023, v. 13, n. 2, p. 386, doi. 10.3390/catal13020386
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Reducibility Studies of Ceria, Ce 0.85 Zr 0.15 O 2 (CZ) and Au/CZ Catalysts after Alkali Ion Doping: Impact on Activity in Oxidation of NO and CO.
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- Catalysts (2073-4344), 2022, v. 12, n. 5, p. 524, doi. 10.3390/catal12050524
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A new photoactivable NO‐releasing {Ru−NO}<sup>6</sup> ruthenium nitrosyl complex with a tetradentate ligand containing aniline and pyridine moieties.
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- Chemistry - An Asian Journal, 2022, v. 17, n. 2, p. 1, doi. 10.1002/asia.202101244
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Photochemistry of Metal Nitroprussides: State-of-the-Art and Perspectives.
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- Photochem, 2022, v. 2, n. 2, p. 390, doi. 10.3390/photochem2020027
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Unprecedented cleavage of -N-N- bond of ligand and phenyl ring nitration during nitric oxide (NO) reactivity studies: new ruthenium nitrosyl complex and photoinduced liberation of NO.
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- Journal of Coordination Chemistry, 2022, v. 75, n. 19-24, p. 2933, doi. 10.1080/00958972.2022.2141115
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Effects of Structure and Composition of Adsorbents on Competitive Adsorption of Gaseous Emissions: Experiment and Modeling.
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- Nanomaterials (2079-4991), 2023, v. 13, n. 4, p. 724, doi. 10.3390/nano13040724
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Reducing N<sub>2</sub>O Formation over CO‐SCR Systems with CuCe Mixed Metal Oxides.
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- ChemCatChem, 2021, v. 13, n. 11, p. 2709, doi. 10.1002/cctc.202100057
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