Biochemical pharmacology subject index for volume 45, 1993
Identifieur interne : 002D57 ( Main/Exploration ); précédent : 002D56; suivant : 002D58Biochemical pharmacology subject index for volume 45, 1993
Auteurs :Source :
- Biochemical Pharmacology [ 0006-2952 ] ; 1993.
English descriptors
- Teeft :
- Acetaminophen, Acetaminophen toxicity, Acid, Acid metabolites, Adenosine, Adenosine inhibition, Adenylyl, Adenylyl cyclase, Adhesion, Adipocytes, Adrenal medulla, Adrenergic, Aggregation, Agonist, Aldehyde, Aldehyde dehydrogenase, Amine, Analog, Angiotensin, Antagonist, Antioxidant, Antioxidant status, Antitumor activity, Aortic, Arachidonic, Arachidonic acid, Aroclor, Astrocytoma cells, Benzoate, Binding site, Biochemical, Biochemical pharmacology, Biochemicalpharmacology, Biosynthesis, Bronchial hyperreactivity, Butyrylcholinesterase, Calcium homeostasis, Calcium mobilization, Calcium transport, Carbamazepine metabolism, Cation, Cell injury, Chelator, Cholesterol synthesis, Chromaffin cells, Ciliary processes, Cinc production, Ciprofibrate, Circadian, Circadian rhythm, Clofibric acid, Cloricromene, Colon cancer, Conjugation, Coumarin, Cyclase, Cyclic, Cyclosporin, Cytochrome, Cytotoxicity, Degradation, Dehydrogenase, Derivative, Diamine, Diazepam metabolism, Dietary restriction, Dopamine, Dye, Early response gene induction, Efflux, Endothelial, Endothelial cells, Energy expenditure, Erythrocyte, Ester, Ethanol, Ethanol metabolism, Ether, Fasting, Female rats, Fetal, Fibroblast, Flavonoid, Free radicals, Gene expression, Glucocorticoid, Glucose, Glucuronidation, Glutathione, Growth rats, Guaiaretic acid, Heart mitochondrial membrane, Hela cells, Hepatic, Hepatic cytochrome, Hepatocytes, Human brain, Human kinase, Human liver, Hydroxylase, Hyperammonemic mice, Hypochlorous acid production, Induction, Inhibition, Inhibitor, Inotropic response, Intestinal, Intestinal thiol status, Intestine, Intracellular, Iron chelating agents, Iron chelator, Isozymes, Kidnev, Kidney, Kidney cells, Kidney diamine oxidase, Kidney fibroblasts, Kidney mitochondria, Kinase, Leukemia cells, Lipid, Lipid peroxidation, Liver, Liver cytochrome, Liver effect, Liver microsomes, Liver microsomes effect, Liver mitochondria, Liver nuclei, Liver parenchymal cells, Macrophage, Melanoma, Melanoma cells, Membrane, Membrane interaction, Metabolic inhibitors, Metabolism, Metabolizing, Methylene, Metronidazole metabolism, Microsome, Mitochondrial, Mitochondrial benzodiazepine receptors, Mitochondrion, Monoamine metabolism, Mrna, Muscarinic, Muscarinic receptors, Musk, Musk xylene, Myocardial reperfusion injury, Nadph, Nadph oxidase, Nadph oxidase inhibition, Neonatal, Nephrotoxicity, Neuroblastoma, Neuroblastoma cells, Neuronal cells, Neurotransmitter release, Neutrophil, Nitric, Nordihydroguaiaretic, Nordihydroguaiaretic acid, Olfactory bulb, Organic cations, Oxacarbocyanine inhibition, Oxidase, Oxidative, Oxidative stress, Oxygen dependence, Paraquat toxicity, Parotid, Parotid gland, Peptide, Perfused, Perfused liver, Peroxidation, Pharmacology, Phenacetin, Phosphodiesterase, Phosphodiesterase inhibitors, Phospholipase, Platelet, Platelet aggregation, Platinum drugs, Pmns, Polyamine synthesis, Portal vein, Prophylactic agent, Protein kinase, Proteolytic activity, Pulmonary hypertension, Rat, Receptor, Receptor binding, Reductase, Reperfusion, Response gene induction, Reticulum, Rociverine, Rooperol, Sarcoplasmic reticulum, Selenium, Selenium compounds, Septic shock, Sodium benzoate, Sodium dodecyl sulfate, Soman simulator, Stilbene disulfonates, Stobadine, Striatum, Sulfate, Synthase, Synthetic steroids, Tamoxifen, Thiacarbocyanine dyes, Thiol, Thoracic aorta, Thrombin, Thrombin receptor, Thyroid state, Tocotrienol, Topoisomerase, Toxicity, Tracheal, Tracheal epithelial cells, Trypanosoma cruzi, Tubulin, Tumor cell adhesion, Uptake, Valproate, Vanadate, Vascular responses, Xenobiotic, Xenobiotic metabolizing esterases, Xenopus oocytes, Xylene, Zucker.
Url:
DOI: 10.1016/0006-2952(93)90060-A
Affiliations:
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Le document en format XML
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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Acetaminophen</term>
<term>Acetaminophen toxicity</term>
<term>Acid</term>
<term>Acid metabolites</term>
<term>Adenosine</term>
<term>Adenosine inhibition</term>
<term>Adenylyl</term>
<term>Adenylyl cyclase</term>
<term>Adhesion</term>
<term>Adipocytes</term>
<term>Adrenal medulla</term>
<term>Adrenergic</term>
<term>Aggregation</term>
<term>Agonist</term>
<term>Aldehyde</term>
<term>Aldehyde dehydrogenase</term>
<term>Amine</term>
<term>Analog</term>
<term>Angiotensin</term>
<term>Antagonist</term>
<term>Antioxidant</term>
<term>Antioxidant status</term>
<term>Antitumor activity</term>
<term>Aortic</term>
<term>Arachidonic</term>
<term>Arachidonic acid</term>
<term>Aroclor</term>
<term>Astrocytoma cells</term>
<term>Benzoate</term>
<term>Binding site</term>
<term>Biochemical</term>
<term>Biochemical pharmacology</term>
<term>Biochemicalpharmacology</term>
<term>Biosynthesis</term>
<term>Bronchial hyperreactivity</term>
<term>Butyrylcholinesterase</term>
<term>Calcium homeostasis</term>
<term>Calcium mobilization</term>
<term>Calcium transport</term>
<term>Carbamazepine metabolism</term>
<term>Cation</term>
<term>Cell injury</term>
<term>Chelator</term>
<term>Cholesterol synthesis</term>
<term>Chromaffin cells</term>
<term>Ciliary processes</term>
<term>Cinc production</term>
<term>Ciprofibrate</term>
<term>Circadian</term>
<term>Circadian rhythm</term>
<term>Clofibric acid</term>
<term>Cloricromene</term>
<term>Colon cancer</term>
<term>Conjugation</term>
<term>Coumarin</term>
<term>Cyclase</term>
<term>Cyclic</term>
<term>Cyclosporin</term>
<term>Cytochrome</term>
<term>Cytotoxicity</term>
<term>Degradation</term>
<term>Dehydrogenase</term>
<term>Derivative</term>
<term>Diamine</term>
<term>Diazepam metabolism</term>
<term>Dietary restriction</term>
<term>Dopamine</term>
<term>Dye</term>
<term>Early response gene induction</term>
<term>Efflux</term>
<term>Endothelial</term>
<term>Endothelial cells</term>
<term>Energy expenditure</term>
<term>Erythrocyte</term>
<term>Ester</term>
<term>Ethanol</term>
<term>Ethanol metabolism</term>
<term>Ether</term>
<term>Fasting</term>
<term>Female rats</term>
<term>Fetal</term>
<term>Fibroblast</term>
<term>Flavonoid</term>
<term>Free radicals</term>
<term>Gene expression</term>
<term>Glucocorticoid</term>
<term>Glucose</term>
<term>Glucuronidation</term>
<term>Glutathione</term>
<term>Growth rats</term>
<term>Guaiaretic acid</term>
<term>Heart mitochondrial membrane</term>
<term>Hela cells</term>
<term>Hepatic</term>
<term>Hepatic cytochrome</term>
<term>Hepatocytes</term>
<term>Human brain</term>
<term>Human kinase</term>
<term>Human liver</term>
<term>Hydroxylase</term>
<term>Hyperammonemic mice</term>
<term>Hypochlorous acid production</term>
<term>Induction</term>
<term>Inhibition</term>
<term>Inhibitor</term>
<term>Inotropic response</term>
<term>Intestinal</term>
<term>Intestinal thiol status</term>
<term>Intestine</term>
<term>Intracellular</term>
<term>Iron chelating agents</term>
<term>Iron chelator</term>
<term>Isozymes</term>
<term>Kidnev</term>
<term>Kidney</term>
<term>Kidney cells</term>
<term>Kidney diamine oxidase</term>
<term>Kidney fibroblasts</term>
<term>Kidney mitochondria</term>
<term>Kinase</term>
<term>Leukemia cells</term>
<term>Lipid</term>
<term>Lipid peroxidation</term>
<term>Liver</term>
<term>Liver cytochrome</term>
<term>Liver effect</term>
<term>Liver microsomes</term>
<term>Liver microsomes effect</term>
<term>Liver mitochondria</term>
<term>Liver nuclei</term>
<term>Liver parenchymal cells</term>
<term>Macrophage</term>
<term>Melanoma</term>
<term>Melanoma cells</term>
<term>Membrane</term>
<term>Membrane interaction</term>
<term>Metabolic inhibitors</term>
<term>Metabolism</term>
<term>Metabolizing</term>
<term>Methylene</term>
<term>Metronidazole metabolism</term>
<term>Microsome</term>
<term>Mitochondrial</term>
<term>Mitochondrial benzodiazepine receptors</term>
<term>Mitochondrion</term>
<term>Monoamine metabolism</term>
<term>Mrna</term>
<term>Muscarinic</term>
<term>Muscarinic receptors</term>
<term>Musk</term>
<term>Musk xylene</term>
<term>Myocardial reperfusion injury</term>
<term>Nadph</term>
<term>Nadph oxidase</term>
<term>Nadph oxidase inhibition</term>
<term>Neonatal</term>
<term>Nephrotoxicity</term>
<term>Neuroblastoma</term>
<term>Neuroblastoma cells</term>
<term>Neuronal cells</term>
<term>Neurotransmitter release</term>
<term>Neutrophil</term>
<term>Nitric</term>
<term>Nordihydroguaiaretic</term>
<term>Nordihydroguaiaretic acid</term>
<term>Olfactory bulb</term>
<term>Organic cations</term>
<term>Oxacarbocyanine inhibition</term>
<term>Oxidase</term>
<term>Oxidative</term>
<term>Oxidative stress</term>
<term>Oxygen dependence</term>
<term>Paraquat toxicity</term>
<term>Parotid</term>
<term>Parotid gland</term>
<term>Peptide</term>
<term>Perfused</term>
<term>Perfused liver</term>
<term>Peroxidation</term>
<term>Pharmacology</term>
<term>Phenacetin</term>
<term>Phosphodiesterase</term>
<term>Phosphodiesterase inhibitors</term>
<term>Phospholipase</term>
<term>Platelet</term>
<term>Platelet aggregation</term>
<term>Platinum drugs</term>
<term>Pmns</term>
<term>Polyamine synthesis</term>
<term>Portal vein</term>
<term>Prophylactic agent</term>
<term>Protein kinase</term>
<term>Proteolytic activity</term>
<term>Pulmonary hypertension</term>
<term>Rat</term>
<term>Receptor</term>
<term>Receptor binding</term>
<term>Reductase</term>
<term>Reperfusion</term>
<term>Response gene induction</term>
<term>Reticulum</term>
<term>Rociverine</term>
<term>Rooperol</term>
<term>Sarcoplasmic reticulum</term>
<term>Selenium</term>
<term>Selenium compounds</term>
<term>Septic shock</term>
<term>Sodium benzoate</term>
<term>Sodium dodecyl sulfate</term>
<term>Soman simulator</term>
<term>Stilbene disulfonates</term>
<term>Stobadine</term>
<term>Striatum</term>
<term>Sulfate</term>
<term>Synthase</term>
<term>Synthetic steroids</term>
<term>Tamoxifen</term>
<term>Thiacarbocyanine dyes</term>
<term>Thiol</term>
<term>Thoracic aorta</term>
<term>Thrombin</term>
<term>Thrombin receptor</term>
<term>Thyroid state</term>
<term>Tocotrienol</term>
<term>Topoisomerase</term>
<term>Toxicity</term>
<term>Tracheal</term>
<term>Tracheal epithelial cells</term>
<term>Trypanosoma cruzi</term>
<term>Tubulin</term>
<term>Tumor cell adhesion</term>
<term>Uptake</term>
<term>Valproate</term>
<term>Vanadate</term>
<term>Vascular responses</term>
<term>Xenobiotic</term>
<term>Xenobiotic metabolizing esterases</term>
<term>Xenopus oocytes</term>
<term>Xylene</term>
<term>Zucker</term>
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