azides has been researched along with mannitol in 32 studies
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 13 (40.63) | 18.7374 |
1990's | 15 (46.88) | 18.2507 |
2000's | 1 (3.13) | 29.6817 |
2010's | 3 (9.38) | 24.3611 |
2020's | 0 (0.00) | 2.80 |
Authors | Studies |
---|---|
Griffin, BW | 1 |
Cederbaum, AI; Cohen, G; Dicker, E | 1 |
Barran, LR; Schneider, EF; Seaman, WL | 1 |
Inaba, H; Kobayashi, M; Nagoshi, T; Suzuki, S; Usa, M; Watanabe, H | 1 |
Bennett, JE; Rex, JH | 1 |
Peak, JG; Peak, MJ | 1 |
Furuta, H; Sugiyama, K; Suzuki, Y | 1 |
Cherenkevich, SN; Klinger, IuE; Nikandrov, VN; Sudnik, IuM; Votiakov, VI | 1 |
Bradley, SG; Pang, RH | 1 |
de Waart, J; Mossel, DA; ten Broeke, R; van den Moosdijk, A | 1 |
Eagon, RG; Phibbs, PV | 1 |
Haas, HG; Hantsch, F; Otter, HP; Siegel, G | 1 |
Botting, JH; Turmer, AD | 1 |
Spoerl, E | 1 |
Knowles, CJ; Smith, L | 1 |
Anton, A; Colclough, L; Greene, WH; Root, RK | 1 |
Kuppusamy, P; Li, Y; Trush, MA; Zweier, JL | 1 |
Demiryürek, AT; Kane, KA; Wadsworth, RM; Wainwright, CL | 1 |
Ito, T; Peak, JG; Peak, MJ; Robb, FT | 1 |
Gray, GC; Sahu, SC | 2 |
Bhat, R; Hadi, SM | 1 |
Chillemi, R; Condorelli, G; Costanzo, LL; De Guidi, G; Giuffrida, S; Sortino, S | 1 |
Bommer, JC; Spikes, JD | 1 |
Chillemi, R; Condorelli, G; Costanzo, LL; De Guidi, G; Giuffrida, S | 1 |
Lambert, C; Oroskar, AA; Peak, MJ | 1 |
Aprile, F; Frati, E; Front, P; Khatib, AM; Mitrovic, DR; Panasyuk, A | 1 |
Cai, Q; Rahn, R; Wei, H; Zhang, X | 1 |
Gellett, AM; Higgins, PJ | 1 |
Alvarez, MG; Bertolotti, SG; Cormick, MP; Durantini, EN; Quiroga, ED | 1 |
Anglin, BL; Dehigaspitiya, DC; Lynch, RM; Mash, EA; Smith, KR; Weber, CS | 1 |
Aragão-Leoneti, V; Carvalho, I; Field, RA; Mantoani, SP; Nepogodiev, SA; Rugen, MD; Zamoner, LO | 1 |
32 other study(ies) available for azides and mannitol
Article | Year |
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Free radical intermediate in the N-demethylation of aminopyrine by horseradish peroxidase-hydrogen peroxide.
Topics: Aminopyrine; Aminopyrine N-Demethylase; Azides; Binding Sites; Electron Spin Resonance Spectroscopy; Fluorides; Free Radicals; Horseradish Peroxidase; Hydrogen Peroxide; Mannitol; Peroxidases; Protein Binding; Protein Conformation | 1977 |
Effect of hydroxyl radical scavengers on microsomal oxidation of alcohols and on associated microsomal reactions.
Topics: Animals; Azides; Benzoates; Dimethyl Sulfoxide; Ethanol; Hydrogen Peroxide; Kinetics; Male; Mannitol; Microsomes, Liver; Oxidation-Reduction; Rats | 1978 |
Requirements for the rapid conversion of macroconidia of Fusarium sulphureum to chlamydospores.
Topics: Air; Ammonium Sulfate; Azides; Cyanides; Cycloheximide; Dinitrophenols; Fusarium; Glucose; Mannitol; Spores, Fungal; Temperature | 1977 |
Chemiluminescence in the crude extracts of soybean seedlings. Postulated mechanism on the formation of hydroperoxide intermediates.
Topics: Acetaldehyde; Aldehydes; Azides; Catalase; Glycine max; Hydrogen Peroxide; Kinetics; Luminescent Measurements; Mannitol; Peroxidase; Sodium Azide; Spectrophotometry; Sulfites; Superoxide Dismutase | 1992 |
Administration of potassium iodide to normal volunteers does not increase killing of Sporothrix schenckii by their neutrophils or monocytes.
Topics: Azides; Catalase; Humans; Iodides; Mannitol; Monocytes; Neutrophils; Phagocytosis; Potassium Iodide; Sodium Azide; Sporothrix; Superoxide Dismutase | 1990 |
Hydroxyl radical quenching agents protect against DNA breakage caused by both 365-nm UVA and by gamma radiation.
Topics: Acetates; Azides; Bacillus subtilis; DNA Damage; DNA, Bacterial; Formates; Free Radicals; Gamma Rays; Hydroxides; Hydroxyl Radical; Mannitol; Ultraviolet Rays | 1990 |
Eugenol-mediated superoxide generation and cytotoxicity in guinea pig neutrophils.
Topics: Animals; Anti-Infective Agents, Local; Azides; Catalase; Cell Survival; Eugenol; Guinea Pigs; In Vitro Techniques; Male; Mannitol; Metals; Neutrophils; Oxygen Consumption; Phenols; Superoxide Dismutase; Superoxides | 1985 |
[Peroxidase activity of the influenza virus].
Topics: Animals; Antimycin A; Azides; Chick Embryo; Ethanol; Ferritins; Horseradish Peroxidase; Influenza A virus; Luminescent Measurements; Mannitol; Peroxidases; Phenanthrolines; Sodium Azide; Superoxide Dismutase | 1985 |
Regulation of substrate uptake in Nocardia erythropolis.
Topics: Azides; Biological Transport, Active; Carbon Radioisotopes; Chloromercuribenzoates; Culture Media; Cyanides; Diffusion; Dinitrophenols; Dithiothreitol; Glucose; Glycerol; Mannitol; Nocardia; Succinates; Temperature; Time Factors | 1974 |
Enumeration of Staphylococcus aureus in foods with special reference to egg-yolk reaction and mannitol negative mutants.
Topics: Azides; Bacillus; Bacteriological Techniques; Culture Media; Egg Yolk; Female; Food Microbiology; Mannitol; Mutation; Staphylococcus | 1968 |
Kinetics of transport of glucose, fructose, and mannitol by Pseudomonas aeruginosa.
Topics: Azides; Biological Transport, Active; Carbon Isotopes; Chromatography, Paper; Diffusion; Dinitrophenols; Enzyme Induction; Fructose; Fructosephosphates; Gluconates; Glucose; Glucosephosphates; Iodoacetates; Isotope Labeling; Kinetics; Mannitol; Membrane Transport Proteins; Pseudomonas aeruginosa; Sucrose | 1971 |
[Studies on the problem of active K- and Na-transport in the myocardium].
Topics: Action Potentials; Adenosine Triphosphate; Animals; Anura; Atrial Function; Azides; Biological Transport, Active; Depression, Chemical; Dinitrophenols; In Vitro Techniques; Inulin; Lithium; Mannitol; Membrane Potentials; Myocardium; Ouabain; Potassium; Sodium; Sulfates | 1967 |
Studies on the mode of action of vasopressin on the isolated proximal colon of the guinea-pig.
Topics: Acetylcholine; Animals; Azides; Colon; Electric Stimulation; Guinea Pigs; In Vitro Techniques; Magnesium; Mannitol; Methacholine Compounds; Morphine; Muscle, Smooth; Organometallic Compounds; Oxytocin; Potassium; Scopolamine; Sodium; Sucrose; Tetrodotoxin; Tin; Vasopressins | 1969 |
Mannitol utake by Saccharomyces cerevisiae.
Topics: Azides; Biological Transport; Carbon Isotopes; Culture Media; Dialysis; Dinitrophenols; Glucose; Glycine; Iodoacetates; Mannitol; Nitrates; Osmosis; Oxygen; Saccharomyces; Sodium; Sorbose; Temperature; Uranium; Vibration | 1971 |
The relationship between substrate-induced respiration and swelling in Azotobacter vinelandii.
Topics: Azides; Azotobacter; Biological Transport, Active; Cell-Free System; Depression, Chemical; Dinitrophenols; Electrodes; Hydrogen-Ion Concentration; Kinetics; Lactates; Light; Mannitol; Nitriles; Osmolar Concentration; Oxidation-Reduction; Oxygen Consumption; Phenylhydrazines; Polarography; Potassium; Potassium Chloride; Protons; Scattering, Radiation; Spectrophotometry; Stimulation, Chemical; Temperature | 1971 |
Lectin-dependent neutrophil-mediated cytotoxicity against chicken erythrocytes: a model of non-myeloperoxidase-mediated oxygen-dependent killing by human neutrophils.
Topics: Animals; Azides; Benzoates; Catalase; Chickens; Concanavalin A; Cytotoxicity, Immunologic; Erythrocytes; Granulomatous Disease, Chronic; Histidine; Humans; Lectins; Male; Mannitol; Neutrophils; Oxygen; Peroxidase; Proteins; Superoxide Dismutase | 1980 |
ESR evidence for the generation of reactive oxygen species from the copper-mediated oxidation of the benzene metabolite, hydroquinone: role in DNA damage.
Topics: Animals; Azides; Benzene; Catalase; Cattle; Chelating Agents; Copper; DNA Damage; Electron Spin Resonance Spectroscopy; Electrophoresis, Polyacrylamide Gel; Glutathione; Hydrogen Peroxide; Hydroquinones; Mannitol; Mutagens; Oxidation-Reduction; Oxygen Consumption; Phenanthrolines; Radiation-Protective Agents; Reactive Oxygen Species; Sodium Azide; Superoxide Dismutase | 1995 |
Characterization of a method for the detection of drugs with free radical scavenging activity using porcine leukocytes.
Topics: Animals; Antioxidants; Azides; Captopril; Catalase; Drug Evaluation, Preclinical; Free Radical Scavengers; Ionomycin; Leukocytes; Luminescent Measurements; Mannitol; Sodium Azide; Superoxide Dismutase; Swine; Tetradecanoylphorbol Acetate; Xanthine; Xanthine Oxidase; Xanthines | 1994 |
DNA damage produced by exposure of supercoiled plasmid DNA to high- and low-LET ionizing radiation: effects of hydroxyl radical quenchers.
Topics: Acetates; Acetic Acid; Azides; beta-Galactosidase; Cobalt Radioisotopes; DNA Damage; DNA, Superhelical; DNA, Viral; Dose-Response Relationship, Radiation; Escherichia coli; Formates; Free Radical Scavengers; Gamma Rays; Hydroxyl Radical; Linear Energy Transfer; Mannitol; Neutrons; Plasmids | 1995 |
Kaempferol-induced nuclear DNA damage and lipid peroxidation.
Topics: Animals; Antioxidants; Azides; Catalase; Cations, Divalent; Cell-Free System; Copper; DNA Damage; Ferric Compounds; Flavonoids; In Vitro Techniques; Iron; Kaempferols; Lipid Peroxides; Male; Mannitol; Quercetin; Rats; Rats, Sprague-Dawley; Sodium Azide; Superoxide Dismutase | 1994 |
Photoinactivation of bacteriophage lambda by kojic acid and Fe(III): role of oxygen radical intermediates in the reaction.
Topics: Azides; Bacteriophage lambda; Catalase; Deferoxamine; DNA Damage; DNA, Viral; Escherichia coli; Free Radicals; Genes, Bacterial; Genetic Markers; Iron; Light; Mannitol; Photosensitizing Agents; Pyrones; Sodium Azide; Ultraviolet Rays | 1994 |
Molecular mechanism of drug photosensitization. 5. Photohemolysis sensitized by Suprofen.
Topics: Aerobiosis; Anaerobiosis; Azides; Butylated Hydroxyanisole; Erythrocytes; Glutathione; Hemolysis; Humans; Hydrogen-Ion Concentration; In Vitro Techniques; Ketones; Mannitol; Photolysis; Photosensitizing Agents; Sodium Azide; Superoxide Dismutase; Suprofen; Ultraviolet Rays | 1994 |
Photobleaching of mono-L-aspartyl chlorin e6 (NPe6): a candidate sensitizer for the photodynamic therapy of tumors.
Topics: Animals; Antineoplastic Agents; Aspartic Acid; Azides; Deuterium; Humans; Mannitol; Metronidazole; Molecular Structure; Neoplasms; Paraquat; Photochemistry; Photochemotherapy; Photosensitizing Agents; Porphyrins; Solvents | 1993 |
Interactions of flavonoids, trace metals, and oxygen: nuclear DNA damage and lipid peroxidation induced by myricetin.
Topics: Animals; Azides; Catalase; Copper; DNA; DNA Damage; Drug Interactions; Flavonoids; Iron; Lipid Peroxidation; Male; Mannitol; Oxidation-Reduction; Rats; Rats, Sprague-Dawley; Sodium Azide; Superoxide Dismutase | 1993 |
Molecular mechanism of drug photosensitization. 4. Photohemolysis sensitized by carprofen.
Topics: Aerobiosis; Anaerobiosis; Azides; Butylated Hydroxytoluene; Carbazoles; Erythrocyte Membrane; Erythrocytes; Glutathione; Hemolysis; Humans; In Vitro Techniques; Kinetics; Liposomes; Mannitol; Photosensitizing Agents; Sodium Azide; Superoxide Dismutase; Ultraviolet Rays | 1993 |
Effects of hydroxyl radical scavengers on relaxation of supercoiled DNA by aminomethyl-trimethyl-psoralen and monochromatic UVA photons.
Topics: Acetates; Acetic Acid; Azides; DNA, Superhelical; Formates; Free Radical Scavengers; Hydroxyl Radical; Mannitol; Photosensitizing Agents; Plasmids; Sodium Azide; Trioxsalen; Ultraviolet Rays | 1996 |
Degradation of hyaluronic acid by photosensitized riboflavin in vitro. Modulation of the effect by transition metals, radical quenchers, and metal chelators.
Topics: Animals; Aspirin; Azides; Catalase; Cattle; Chelating Agents; Dimethyl Sulfoxide; Hyaluronic Acid; Hydrogen-Ion Concentration; Hydroxyl Radical; Mannitol; Metals; Oxygen; Reactive Oxygen Species; Riboflavin; Singlet Oxygen; Sodium Azide; Superoxide Dismutase; Synovial Fluid; Thiourea; Ultraviolet Rays; Viscosity | 1997 |
Singlet oxygen involvement in ultraviolet (254 nm) radiation-induced formation of 8-hydroxy-deoxyguanosine in DNA.
Topics: 8-Hydroxy-2'-Deoxyguanosine; Animals; Azides; Cattle; Deoxyguanosine; Deuterium Oxide; Dimethyl Sulfoxide; DNA; DNA Damage; Hydrogen Peroxide; Hydroxyl Radical; Iron; Mannitol; Oxygen; Singlet Oxygen; Sodium Azide; Thymus Gland; Ultraviolet Rays | 1997 |
Enhancement of DNA cleavage activity of an unnatural ferrocene-amino acid conjugate.
Topics: Amino Acids; Antioxidants; Azides; Chemistry, Pharmaceutical; Cyclic N-Oxides; Dithiothreitol; DNA; DNA Cleavage; Electrophoresis; Ferrous Compounds; Lysine; Mannitol; Metallocenes; Models, Chemical; Reactive Oxygen Species; RNA, Ribosomal, 5S | 2009 |
Mechanistic insight of the photodynamic effect induced by tri- and tetra-cationic porphyrins on Candida albicans cells.
Topics: Azides; Candida albicans; Deuterium Oxide; Light; Mannitol; Oxygen; Photosensitizing Agents; Porphyrins; Quaternary Ammonium Compounds; Singlet Oxygen | 2011 |
Linear scaffolds for multivalent targeting of melanocortin receptors.
Topics: Alkynes; Amino Acid Sequence; Azides; Binding, Competitive; Cyclization; Ethylene Glycol; Glycerol; HEK293 Cells; Humans; Mannitol; Oligopeptides; Protein Multimerization; Receptor, Melanocortin, Type 4; Structure-Activity Relationship | 2015 |
CuAAC click chemistry with N-propargyl 1,5-dideoxy-1,5-imino-D-gulitol and N-propargyl 1,6-dideoxy-1,6-imino-D-mannitol provides access to triazole-linked piperidine and azepane pseudo-disaccharide iminosugars displaying glycosidase inhibitory properties.
Topics: 1-Deoxynojirimycin; alpha-Glucosidases; Azides; beta-Amylase; beta-Glucosidase; Click Chemistry; Disaccharides; Enzyme Inhibitors; Glucose; Heterocyclic Compounds, 1-Ring; Hordeum; Imino Sugars; Mannitol; Pargyline; Piperidines; Propylamines; Prunus dulcis; Saccharomyces cerevisiae; Triazoles | 2016 |