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American Journal of Physiology - Regulatory Integrative and Comparative Physiology, ISSN 0363-6119, 01/2013, Volume 304, Issue 1, pp. R23 - R32
The interaction between adenosine and soluble epoxide hydrolase (sEH) in vascular response is not known. Therefore, we hypothesized that lack of sEH in mice... 
Relaxation | CYP2J5-epoxgenase;ω-hydroxylase | receptor | Soluble epoxide hydrolase | Contraction | Adenosine A | Epoxide Hydrolases - physiology | Adenosine-5'-(N-ethylcarboxamide) - pharmacology | Butyrates - pharmacology | Male | Receptor, Adenosine A2A - physiology | Lauric Acids - pharmacology | Vasodilation - genetics | 8,11,14-Eicosatrienoic Acid - analogs & derivatives | Adenosine A2 Receptor Agonists - pharmacology | Urea - analogs & derivatives | Female | Benzamides - pharmacology | Oxygenases - physiology | Vasodilation - physiology | 8,11,14-Eicosatrienoic Acid - pharmacology | Adamantane - analogs & derivatives | NG-Nitroarginine Methyl Ester - pharmacology | Adamantane - pharmacology | Triazines - pharmacology | Phenethylamines - pharmacology | Vasodilator Agents - pharmacology | Enzyme Inhibitors - pharmacology | Gene Silencing | Adenosine - pharmacology | Pyrimidines - pharmacology | Epoxide Hydrolases - genetics | Triazoles - pharmacology | Adenosine A2 Receptor Antagonists - pharmacology | PPAR gamma - physiology | Animals | Adenosine - analogs & derivatives | Benzoates - pharmacology | Mice | Phenylurea Compounds - pharmacology | Pyridines - pharmacology | Vasodilation - drug effects | Urea - pharmacology | adenosine A2a receptor | CYP2J5-epoxgenase | ω-hydroxylase | relaxation | contraction | Cardiovascular and Renal Integration | soluble epoxide hydrolase | adenosine A1 receptor
Journal Article
Nature Neuroscience, ISSN 1097-6256, 07/2011, Volume 14, Issue 7, pp. 881 - 888
Striatal spiny neurons (SPNs) associate a diverse array of cortically processed information to regulate action selection. But how this is done by SPNs is... 
CALCIUM-CHANNELS | BASAL GANGLIA | IN-VIVO | RECEPTOR ACTIVATION | INTRACELLULAR-RECORDINGS | PROJECTION NEURONS | LONG-TERM POTENTIATION | NEOSTRIATAL NEURONS | NEUROSCIENCES | DOPAMINERGIC CONTROL | CA1 PYRAMIDAL NEURONS | Electric Stimulation | Calcium - metabolism | 2-Amino-5-phosphonovalerate - pharmacology | Neurons - cytology | Green Fluorescent Proteins - genetics | Spider Venoms - pharmacology | Corpus Striatum - cytology | Excitatory Postsynaptic Potentials - drug effects | Nerve Net - physiology | Anesthetics, Local - pharmacology | N-Methylaspartate - pharmacology | Excitatory Postsynaptic Potentials - physiology | Neurons - ultrastructure | Adenosine A2 Receptor Agonists - pharmacology | Time Factors | Dopamine Agents - pharmacology | Dendrites - physiology | Tetrodotoxin - pharmacology | Nickel - pharmacology | Animals, Newborn | Dendrites - drug effects | Mibefradil - pharmacology | Phenethylamines - pharmacology | Synapses - physiology | Mice, Transgenic | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Adenosine - pharmacology | Biophysics | Membrane Potentials - physiology | Calcium Channel Blockers | Microscopy, Confocal | Patch-Clamp Techniques | Animals | Adenosine - analogs & derivatives | Mice | Models, Neurological | In Vitro Techniques | Physiological aspects | Neural receptors | Dendrites | Research | Glutamate
Journal Article
Journal Article
Journal Article
Journal of Neuroscience, ISSN 0270-6474, 07/2004, Volume 24, Issue 30, pp. 6650 - 6658
Neurotrophins, such as NGF and BDNF, activate Trk receptor tyrosine kinases through receptor dimerization at the cell surface followed by autophosphorylation... 
Basal forebrain | Adenosine | PACAP | NGF | Tyrosine phosphorylation | Golgi apparatus | RETROGRADE AXONAL-TRANSPORT | TYROSINE KINASE | basal forebrain | SYMPATHETIC NEURONS | NEUROSCIENCES | NERVE GROWTH-FACTOR | adenosine | SIGNAL-TRANSDUCTION | ACTIVATING POLYPEPTIDE PACAP | IN-VITRO | FUNCTIONAL EXPRESSION | tyrosine phosphorylation | EGF RECEPTOR | Golgi Apparatus - enzymology | Transcription, Genetic - drug effects | Intracellular Membranes - enzymology | Nucleic Acid Synthesis Inhibitors - pharmacology | Brefeldin A - pharmacology | Receptor, trkA - drug effects | Phosphatidylinositol 3-Kinases - antagonists & inhibitors | PC12 Cells - enzymology | Prosencephalon - enzymology | Nerve Growth Factors - pharmacology | Protein Processing, Post-Translational - drug effects | Neuropeptides - pharmacology | Neurotransmitter Agents - pharmacology | Phosphorylation - drug effects | Protein Synthesis Inhibitors - pharmacology | Chromones - pharmacology | Receptor, trkB - drug effects | Receptors, G-Protein-Coupled - drug effects | Pituitary Adenylate Cyclase-Activating Polypeptide | Receptors, G-Protein-Coupled - physiology | Phenethylamines - pharmacology | Protein-Serine-Threonine Kinases - physiology | Morpholines - pharmacology | Rats | Adenosine - pharmacology | Enzyme Activation - drug effects | Rats, Sprague-Dawley | Cycloheximide - pharmacology | Proto-Oncogene Proteins c-akt | PC12 Cells - drug effects | Animals | Receptor, trkA - metabolism | Signal Transduction - drug effects | Adenosine - analogs & derivatives | Proto-Oncogene Proteins - physiology | Phosphatidylinositol 3-Kinases - physiology | Protein Biosynthesis - drug effects | Dactinomycin - pharmacology | Receptor, trkB - metabolism | Cellular | Molecular
Journal Article
Therapeutic Drug Monitoring, ISSN 0163-4356, 10/2010, Volume 32, Issue 5, pp. 544 - 549
In recent years, besides the classic designer drugs of the amphetamine type, a series of new drug classes appeared on the illicit drugs market. The chemistry,... 
drugs of abuse | herbal drugs | metabolism | designer drugs | pharmacology | HEPATIC CYTOCHROME-P450 ISOZYMES | MAIN METABOLITES | ISOLATED RAT HEPATOCYTES | CHROMATOGRAPHY-MASS-SPECTROMETRY | DESIGNER DRUG | MITRAGYNA-SPECIOSA | TOXICOLOGICAL DETECTION | HALLUCINOGENIC MESCALINE ANALOGS | QUANTITATIVE STRUCTURE-ACTIVITY | PHARMACOLOGY & PHARMACY | TOXICOLOGY | MEDICAL LABORATORY TECHNOLOGY | 4-BROMO-2,5-DIMETHOXYPHENETHYLAMINE 2C-B | Substance Abuse Detection - methods | Phencyclidine - pharmacology | Phencyclidine - chemistry | Designer Drugs - metabolism | Amphetamines - pharmacology | Humans | Drugs, Chinese Herbal - pharmacology | Street Drugs - metabolism | Piperazines - metabolism | Piperazines - chemistry | Drugs, Chinese Herbal - metabolism | Forensic Toxicology - methods | Cannabinoids - metabolism | Mitragyna | Amphetamines - chemistry | Designer Drugs - pharmacology | Substance-Related Disorders - metabolism | Phenethylamines - pharmacology | Secologanin Tryptamine Alkaloids - chemistry | Secologanin Tryptamine Alkaloids - pharmacology | Cannabinoids - chemistry | Phenethylamines - chemistry | Phenethylamines - metabolism | Secologanin Tryptamine Alkaloids - metabolism | Piperazines - pharmacology | Cannabinoids - pharmacology | Designer Drugs - chemistry | Animals | Amphetamines - metabolism | Drugs, Chinese Herbal - chemistry | Phencyclidine - metabolism | Street Drugs - pharmacology | Street Drugs - chemistry | Index Medicus
Journal Article
Pflügers Archiv - European Journal of Physiology, ISSN 0031-6768, 7/2015, Volume 467, Issue 7, pp. 1431 - 1443
Journal Article
BRITISH JOURNAL OF PHARMACOLOGY, ISSN 0007-1188, 08/2015, Volume 172, Issue 15, pp. 3831 - 3845
Journal Article
The Journal of Physiology, ISSN 0022-3751, 06/2012, Volume 590, Issue 12, pp. 2917 - 2936
Journal Article
Journal of Neurochemistry, ISSN 0022-3042, 08/2005, Volume 94, Issue 3, pp. 819 - 827
Minocycline is neuroprotective in animal models of a number of acute CNS injuries and neurodegenerative diseases. While anti‐inflammatory and anti‐apoptotic... 
neurodegenerative diseases | lipid peroxidation assay | deoxyribose degradation assay | radical scavenging assay | tetracyclines | mixed neuronal cultures | Deoxyribose degradation assay | Mixed neuronal cultures | Radical scavenging assay | Neurodegenerative diseases | Tetracyclines | Lipid peroxidation assay | CEREBELLAR GRANULE NEURONS | BIOCHEMISTRY & MOLECULAR BIOLOGY | NEUROTOXICITY | NEUROSCIENCES | neuroclegenerative diseases | CELL-DEATH | IN-VITRO | CORTICAL-NEURONS | MOUSE MODEL | DISEASE | SPINAL-CORD-INJURY | CYTOCHROME-C RELEASE | Free Radical Scavengers - pharmacology | L-Lactate Dehydrogenase - metabolism | Embryo, Mammalian | Minocycline - pharmacology | Antipyrine - pharmacology | Minocycline - chemistry | Oxidative Stress - physiology | Cerebral Cortex - cytology | Deoxyribose - metabolism | Dose-Response Relationship, Drug | Drug Interactions | Neuroprotective Agents - pharmacology | Antipyrine - analogs & derivatives | Chromans - pharmacology | Lipid Peroxidation - drug effects | Inhibitory Concentration 50 | Cell Death - drug effects | Neurons - drug effects | Glutamic Acid - pharmacology | Cells, Cultured | Phenethylamines - metabolism | Rats | Antioxidants - pharmacology | Rats, Sprague-Dawley | Sulfonic Acids - metabolism | Animals | Free Radicals - pharmacology | Oxidative Stress - drug effects | Dizocilpine Maleate - pharmacology | Benzothiazoles | Vitamin E - pharmacology | Antioxidants | Oxidation | Antibiotics | Neurons | Stress
Journal Article