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Publication DateNeuropsychopharmacology, ISSN 0893-133X, 01/2010, Volume 35, Issue 2, pp. 401 - 415
A single exposure to psychostimulants or morphine is sufficient to induce persistent locomotor sensitization, as well as neurochemical and electrophysiological...
NMDA | Morphine | Cocaine | Dopamine | Protein synthesis inhibitor | GBR12783 | cocaine | PSYCHIATRY | BEHAVIORAL SENSITIZATION | COCAINE SENSITIZATION | PROTEIN-SYNTHESIS | NEUROSCIENCES | morphine | VENTRAL TEGMENTAL AREA | NUCLEUS-ACCUMBENS | DOPAMINE NEURONS | SIGNALING PATHWAY | SINGLE EXPOSURE | NMDA-RECEPTORS | PHARMACOLOGY & PHARMACY | dopamine | protein synthesis inhibitor | UPTAKE INHIBITOR GBR12783 | Motor Activity - physiology | Dopamine and cAMP-Regulated Phosphoprotein 32 - genetics | Motor Activity - drug effects | Male | Green Fluorescent Proteins - genetics | Extracellular Signal-Regulated MAP Kinases - metabolism | Corpus Striatum - metabolism | Substance-Related Disorders - genetics | Point Mutation - genetics | Time Factors | Threonine - genetics | Raclopride - pharmacology | Protein Synthesis Inhibitors - pharmacology | Disease Models, Animal | Receptors, Dopamine D1 - antagonists & inhibitors | Dopamine Agonists - pharmacology | Drug Administration Routes | Dopamine Uptake Inhibitors - pharmacology | Drug Administration Schedule | Morphine - pharmacology | Gene Expression Regulation - genetics | Mice, Inbred C57BL | Mice, Transgenic | Excitatory Amino Acid Antagonists - pharmacology | Maze Learning - drug effects | Substance-Related Disorders - physiopathology | Gene Expression Regulation - drug effects | Cocaine - pharmacology | Motor Activity - genetics | Animals | Analysis of Variance | Dopamine Antagonists - pharmacology | Corpus Striatum - drug effects | Anisomycin - pharmacology | Mice | Narcotics - pharmacology | Dizocilpine Maleate - pharmacology | Receptors, Dopamine D1 - genetics | Original
NMDA | Morphine | Cocaine | Dopamine | Protein synthesis inhibitor | GBR12783 | cocaine | PSYCHIATRY | BEHAVIORAL SENSITIZATION | COCAINE SENSITIZATION | PROTEIN-SYNTHESIS | NEUROSCIENCES | morphine | VENTRAL TEGMENTAL AREA | NUCLEUS-ACCUMBENS | DOPAMINE NEURONS | SIGNALING PATHWAY | SINGLE EXPOSURE | NMDA-RECEPTORS | PHARMACOLOGY & PHARMACY | dopamine | protein synthesis inhibitor | UPTAKE INHIBITOR GBR12783 | Motor Activity - physiology | Dopamine and cAMP-Regulated Phosphoprotein 32 - genetics | Motor Activity - drug effects | Male | Green Fluorescent Proteins - genetics | Extracellular Signal-Regulated MAP Kinases - metabolism | Corpus Striatum - metabolism | Substance-Related Disorders - genetics | Point Mutation - genetics | Time Factors | Threonine - genetics | Raclopride - pharmacology | Protein Synthesis Inhibitors - pharmacology | Disease Models, Animal | Receptors, Dopamine D1 - antagonists & inhibitors | Dopamine Agonists - pharmacology | Drug Administration Routes | Dopamine Uptake Inhibitors - pharmacology | Drug Administration Schedule | Morphine - pharmacology | Gene Expression Regulation - genetics | Mice, Inbred C57BL | Mice, Transgenic | Excitatory Amino Acid Antagonists - pharmacology | Maze Learning - drug effects | Substance-Related Disorders - physiopathology | Gene Expression Regulation - drug effects | Cocaine - pharmacology | Motor Activity - genetics | Animals | Analysis of Variance | Dopamine Antagonists - pharmacology | Corpus Striatum - drug effects | Anisomycin - pharmacology | Mice | Narcotics - pharmacology | Dizocilpine Maleate - pharmacology | Receptors, Dopamine D1 - genetics | Original
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Loading RightsAntimicrobial Agents and Chemotherapy, ISSN 0066-4804, 08/2009, Volume 53, Issue 8, pp. 3256 - 3265
Classifications Services AAC Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit...
RESISTANCE PROTEIN-1 ABCC1 | CDR1P | CANDIDA-ALBICANS | TURMERIC POWDER | HUMAN PATHOGENIC YEAST | AZOLE RESISTANCE | MICROBIOLOGY | PHARMACOLOGY & PHARMACY | DRUG-RESISTANCE | SACCHAROMYCES-CEREVISIAE | UP-REGULATION | P-GLYCOPROTEIN ABCB1 | Antifungal Agents - pharmacology | Fluconazole - pharmacology | Methotrexate - metabolism | Curcumin - pharmacology | Enzyme Inhibitors - pharmacology | Saccharomyces cerevisiae - drug effects | Candida albicans - metabolism | Pyrimidines - pharmacology | Rhodamines - metabolism | Cycloheximide - pharmacology | Itraconazole - pharmacology | Ketoconazole - pharmacology | Drug Synergism | Saccharomyces cerevisiae - metabolism | Triazoles - pharmacology | Miconazole - pharmacology | Voriconazole | Anisomycin - pharmacology | Biological Transport - drug effects | Multidrug Resistance-Associated Proteins - metabolism | Index Medicus | Susceptibility
RESISTANCE PROTEIN-1 ABCC1 | CDR1P | CANDIDA-ALBICANS | TURMERIC POWDER | HUMAN PATHOGENIC YEAST | AZOLE RESISTANCE | MICROBIOLOGY | PHARMACOLOGY & PHARMACY | DRUG-RESISTANCE | SACCHAROMYCES-CEREVISIAE | UP-REGULATION | P-GLYCOPROTEIN ABCB1 | Antifungal Agents - pharmacology | Fluconazole - pharmacology | Methotrexate - metabolism | Curcumin - pharmacology | Enzyme Inhibitors - pharmacology | Saccharomyces cerevisiae - drug effects | Candida albicans - metabolism | Pyrimidines - pharmacology | Rhodamines - metabolism | Cycloheximide - pharmacology | Itraconazole - pharmacology | Ketoconazole - pharmacology | Drug Synergism | Saccharomyces cerevisiae - metabolism | Triazoles - pharmacology | Miconazole - pharmacology | Voriconazole | Anisomycin - pharmacology | Biological Transport - drug effects | Multidrug Resistance-Associated Proteins - metabolism | Index Medicus | Susceptibility
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Loading RightsNeuron, ISSN 0896-6273, 2006, Volume 51, Issue 4, pp. 441 - 454
Genetic deletion of fragile X mental retardation protein (FMRP) has been shown to enhance mGluR-dependent long-term depression (LTD). Herein, we demonstrate...
HUMDISEASE | MOLNEURO | SYSTEM | MESSENGER-RNAS | SYNAPSES | UBIQUITIN | FMR1 | MOUSE MODEL | DEGRADATION | GLUTAMATE-RECEPTOR ACTIVATION | HIPPOCAMPAL AREA CA1 | SYNAPTIC PLASTICITY | NEUROSCIENCES | Glycine - analogs & derivatives | Microtubule-Associated Proteins - metabolism | Protein Biosynthesis - physiology | Receptors, Metabotropic Glutamate - physiology | Male | Fragile X Mental Retardation Protein - metabolism | Long-Term Synaptic Depression - drug effects | RNA, Messenger - metabolism | Dose-Response Relationship, Drug | Drug Interactions | Protein Synthesis Inhibitors - pharmacology | Animals, Newborn | Long-Term Synaptic Depression - physiology | Blotting, Western - methods | Fluorescent Antibody Technique - methods | Excitatory Amino Acid Antagonists - pharmacology | Mice, Knockout | Leupeptins - pharmacology | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Glycine - pharmacology | Signal Transduction - drug effects | Models, Biological | Cysteine Proteinase Inhibitors - pharmacology | Benzoates - pharmacology | Anisomycin - pharmacology | Protein Biosynthesis - drug effects | Fragile X Mental Retardation Protein - genetics | Mice | Pyridines - pharmacology | Proteasome Endopeptidase Complex - metabolism | In Vitro Techniques | Ubiquitin | Physiological aspects | Neurosciences | Proteolysis | Mental retardation | Depression, Mental | Proteins | Studies | Software | Protein synthesis | Experiments
HUMDISEASE | MOLNEURO | SYSTEM | MESSENGER-RNAS | SYNAPSES | UBIQUITIN | FMR1 | MOUSE MODEL | DEGRADATION | GLUTAMATE-RECEPTOR ACTIVATION | HIPPOCAMPAL AREA CA1 | SYNAPTIC PLASTICITY | NEUROSCIENCES | Glycine - analogs & derivatives | Microtubule-Associated Proteins - metabolism | Protein Biosynthesis - physiology | Receptors, Metabotropic Glutamate - physiology | Male | Fragile X Mental Retardation Protein - metabolism | Long-Term Synaptic Depression - drug effects | RNA, Messenger - metabolism | Dose-Response Relationship, Drug | Drug Interactions | Protein Synthesis Inhibitors - pharmacology | Animals, Newborn | Long-Term Synaptic Depression - physiology | Blotting, Western - methods | Fluorescent Antibody Technique - methods | Excitatory Amino Acid Antagonists - pharmacology | Mice, Knockout | Leupeptins - pharmacology | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Glycine - pharmacology | Signal Transduction - drug effects | Models, Biological | Cysteine Proteinase Inhibitors - pharmacology | Benzoates - pharmacology | Anisomycin - pharmacology | Protein Biosynthesis - drug effects | Fragile X Mental Retardation Protein - genetics | Mice | Pyridines - pharmacology | Proteasome Endopeptidase Complex - metabolism | In Vitro Techniques | Ubiquitin | Physiological aspects | Neurosciences | Proteolysis | Mental retardation | Depression, Mental | Proteins | Studies | Software | Protein synthesis | Experiments
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Loading RightsEuropean Journal of Neuroscience, ISSN 0953-816X, 09/2014, Volume 40, Issue 6, pp. 2963 - 2970
Nitric oxide ( NO ) is known to be involved in associative memory formation. We investigated the influence of blocking NO function on the reconsolidation of...
Helix lucorum | learning | animal model | behavior | invertebrates | Learning | Animal model | Behavior | Invertebrates | LONG-TERM-MEMORY | PROTEIN-SYNTHESIS | NEUROSCIENCES | RETRIEVAL | CRAB CHASMAGNATHUS | S-NITROSYLATION | REACTIVATION | EXTINCTION | APLYSIA | PLASTICITY | FOOD | Free Radical Scavengers - pharmacology | Memory - drug effects | NG-Nitroarginine Methyl Ester - pharmacology | Motor Activity - physiology | Helix (Snails) - physiology | Enzyme Inhibitors - pharmacology | Motor Activity - drug effects | Nitric Oxide Synthase - antagonists & inhibitors | Imidazoles - pharmacology | Helix (Snails) - drug effects | Indazoles - pharmacology | Nitroarginine - pharmacology | Animals | Time Factors | Benzoates - pharmacology | Anisomycin - pharmacology | Nitric Oxide Synthase - metabolism | Nitric Oxide Donors - pharmacology | Protein Synthesis Inhibitors - pharmacology | Nitric Oxide - metabolism | Electroshock | S-Nitroso-N-Acetylpenicillamine - pharmacology | Memory - physiology | Nitric oxide | Analysis
Helix lucorum | learning | animal model | behavior | invertebrates | Learning | Animal model | Behavior | Invertebrates | LONG-TERM-MEMORY | PROTEIN-SYNTHESIS | NEUROSCIENCES | RETRIEVAL | CRAB CHASMAGNATHUS | S-NITROSYLATION | REACTIVATION | EXTINCTION | APLYSIA | PLASTICITY | FOOD | Free Radical Scavengers - pharmacology | Memory - drug effects | NG-Nitroarginine Methyl Ester - pharmacology | Motor Activity - physiology | Helix (Snails) - physiology | Enzyme Inhibitors - pharmacology | Motor Activity - drug effects | Nitric Oxide Synthase - antagonists & inhibitors | Imidazoles - pharmacology | Helix (Snails) - drug effects | Indazoles - pharmacology | Nitroarginine - pharmacology | Animals | Time Factors | Benzoates - pharmacology | Anisomycin - pharmacology | Nitric Oxide Synthase - metabolism | Nitric Oxide Donors - pharmacology | Protein Synthesis Inhibitors - pharmacology | Nitric Oxide - metabolism | Electroshock | S-Nitroso-N-Acetylpenicillamine - pharmacology | Memory - physiology | Nitric oxide | Analysis
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 03/2005, Volume 25, Issue 11, pp. 2992 - 3001
The presynaptic and postsynaptic properties of synapses change over the course of postnatal development. Therefore, synaptic plasticity mechanisms would be...
CA1 | AMPA receptor endocytosis | Protein synthesis | Long-term depression | Hippocampus | Metabotropic glutamate receptor | Age Factors | Rats, Long-Evans | Receptors, Metabotropic Glutamate - metabolism | Benzoxazines | Amino Acids - pharmacology | Drug Interactions | Receptor, Cannabinoid, CB1 - agonists | Reaction Time - drug effects | Neurons - metabolism | Protein Synthesis Inhibitors - pharmacology | Electric Stimulation - methods | Hippocampus - growth & development | Xanthenes - pharmacology | Pyrazoles - pharmacology | Animals, Newborn | Long-Term Synaptic Depression - physiology | Synapses - physiology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Reaction Time - physiology | Hippocampus - cytology | Cycloheximide - pharmacology | Naphthalenes - pharmacology | Hippocampus - metabolism | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Anisomycin - pharmacology | Receptor, Cannabinoid, CB1 - antagonists & inhibitors | Dizocilpine Maleate - pharmacology | In Vitro Techniques | Cellular | hippocampus | metabotropic glutamate receptor | long-term depression | protein synthesis | Molecular
CA1 | AMPA receptor endocytosis | Protein synthesis | Long-term depression | Hippocampus | Metabotropic glutamate receptor | Age Factors | Rats, Long-Evans | Receptors, Metabotropic Glutamate - metabolism | Benzoxazines | Amino Acids - pharmacology | Drug Interactions | Receptor, Cannabinoid, CB1 - agonists | Reaction Time - drug effects | Neurons - metabolism | Protein Synthesis Inhibitors - pharmacology | Electric Stimulation - methods | Hippocampus - growth & development | Xanthenes - pharmacology | Pyrazoles - pharmacology | Animals, Newborn | Long-Term Synaptic Depression - physiology | Synapses - physiology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Reaction Time - physiology | Hippocampus - cytology | Cycloheximide - pharmacology | Naphthalenes - pharmacology | Hippocampus - metabolism | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Anisomycin - pharmacology | Receptor, Cannabinoid, CB1 - antagonists & inhibitors | Dizocilpine Maleate - pharmacology | In Vitro Techniques | Cellular | hippocampus | metabotropic glutamate receptor | long-term depression | protein synthesis | Molecular
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 10/2005, Volume 25, Issue 43, pp. 9883 - 9892
Current knowledge about the molecular mechanisms of NMDA receptor (NMDAR)-independent long-term potentiation (LTP) in the hippocampus and its function for...
Learning | NMDA receptor independent | Calcium channels | 1.2 | Memory | Synaptic plasticity | Tetraethylammonium - pharmacology | Nitriles - pharmacology | 2-Amino-5-phosphonovalerate - pharmacology | Neuronal Plasticity - drug effects | Membrane Potentials - radiation effects | Patch-Clamp Techniques - methods | Behavior, Animal | Dose-Response Relationship, Drug | Drug Interactions | Neuronal Plasticity - physiology | Time Factors | Pyramidal Cells - physiology | Pyramidal Cells - drug effects | Protein Synthesis Inhibitors - pharmacology | Pyramidal Cells - radiation effects | Electric Stimulation - methods | Potassium Channel Blockers - pharmacology | Membrane Potentials - drug effects | Butadienes - pharmacology | Nerve Tissue Proteins - physiology | Neuronal Plasticity - radiation effects | Fluorescent Antibody Technique - methods | Enzyme Inhibitors - pharmacology | Spatial Behavior - physiology | Calcium Channels, L-Type - physiology | Excitatory Amino Acid Antagonists - pharmacology | Hippocampus - cytology | Membrane Potentials - physiology | Nerve Tissue Proteins - drug effects | Receptors, N-Methyl-D-Aspartate - physiology | Mice, Knockout | Gene Expression Regulation - drug effects | Animals | Calcium Channels, L-Type - deficiency | Anisomycin - pharmacology | Mice | Hippocampus - physiology | Dose-Response Relationship, Radiation | Memory - physiology | Cellular | memory | calcium channels | learning | synaptic plasticity | Molecular | Cav1.2
Learning | NMDA receptor independent | Calcium channels | 1.2 | Memory | Synaptic plasticity | Tetraethylammonium - pharmacology | Nitriles - pharmacology | 2-Amino-5-phosphonovalerate - pharmacology | Neuronal Plasticity - drug effects | Membrane Potentials - radiation effects | Patch-Clamp Techniques - methods | Behavior, Animal | Dose-Response Relationship, Drug | Drug Interactions | Neuronal Plasticity - physiology | Time Factors | Pyramidal Cells - physiology | Pyramidal Cells - drug effects | Protein Synthesis Inhibitors - pharmacology | Pyramidal Cells - radiation effects | Electric Stimulation - methods | Potassium Channel Blockers - pharmacology | Membrane Potentials - drug effects | Butadienes - pharmacology | Nerve Tissue Proteins - physiology | Neuronal Plasticity - radiation effects | Fluorescent Antibody Technique - methods | Enzyme Inhibitors - pharmacology | Spatial Behavior - physiology | Calcium Channels, L-Type - physiology | Excitatory Amino Acid Antagonists - pharmacology | Hippocampus - cytology | Membrane Potentials - physiology | Nerve Tissue Proteins - drug effects | Receptors, N-Methyl-D-Aspartate - physiology | Mice, Knockout | Gene Expression Regulation - drug effects | Animals | Calcium Channels, L-Type - deficiency | Anisomycin - pharmacology | Mice | Hippocampus - physiology | Dose-Response Relationship, Radiation | Memory - physiology | Cellular | memory | calcium channels | learning | synaptic plasticity | Molecular | Cav1.2
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Loading RightsNeurological Research, ISSN 0161-6412, 07/2018, Volume 40, Issue 7, pp. 602 - 608
Objective To investigate the effects of morphine on microglial phagocytosis during neuroinflammation. Methods C8-B4 mouse microglial cells were exposed to...
microglia | Engulfment | morphine | CELLS | PHAGOCYTOSIS | MACROPHAGES | MAPK | NEUROSCIENCES | CLINICAL NEUROLOGY | Animals, Newborn | Receptors, Opioid, delta - metabolism | Microglia - drug effects | Morphine - pharmacology | Cells, Cultured | Enzyme Inhibitors - pharmacology | Analgesics, Opioid - pharmacology | Imidazoles - pharmacology | Dose-Response Relationship, Drug | Animals | Enzyme Activators | Naloxone - pharmacology | Narcotic Antagonists - pharmacology | Lipopolysaccharides - pharmacology | Anisomycin - pharmacology | Mice | Pyridines - pharmacology | p38 Mitogen-Activated Protein Kinases - metabolism | Interferon-gamma - pharmacology | opioid effect
microglia | Engulfment | morphine | CELLS | PHAGOCYTOSIS | MACROPHAGES | MAPK | NEUROSCIENCES | CLINICAL NEUROLOGY | Animals, Newborn | Receptors, Opioid, delta - metabolism | Microglia - drug effects | Morphine - pharmacology | Cells, Cultured | Enzyme Inhibitors - pharmacology | Analgesics, Opioid - pharmacology | Imidazoles - pharmacology | Dose-Response Relationship, Drug | Animals | Enzyme Activators | Naloxone - pharmacology | Narcotic Antagonists - pharmacology | Lipopolysaccharides - pharmacology | Anisomycin - pharmacology | Mice | Pyridines - pharmacology | p38 Mitogen-Activated Protein Kinases - metabolism | Interferon-gamma - pharmacology | opioid effect
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Loading RightsWound Repair and Regeneration, ISSN 1067-1927, 01/2016, Volume 24, Issue 1, pp. 89 - 99
The goal of this study was to develop and validate a simple but quantitative cell‐based assay to identify compounds that might be used pharmaceutically to give...
MEDICINE, RESEARCH & EXPERIMENTAL | SURGERY | ACTIVATED PROTEIN-KINASE | DRUG DISCOVERY | SURGICAL OUTCOMES | HEPATIC-FIBROSIS | CELL BIOLOGY | DERMATOLOGY | EPITHELIAL-CELLS | GENE-EXPRESSION | INFLAMMATORY RESPONSE | MYOFIBROBLAST DIFFERENTIATION | REPORTER GENE | TRANSGENIC MICE | Lovastatin - pharmacology | Epithelium, Corneal - cytology | Humans | Actins - drug effects | Dichlororibofuranosylbenzimidazole - pharmacology | Actins - genetics | Tubercidin - pharmacology | Cornea - drug effects | Transforming Growth Factor beta2 - drug effects | Epithelium, Corneal - drug effects | Cornea - cytology | Protein Synthesis Inhibitors - pharmacology | Thiazolidines - pharmacology | Wound Healing - drug effects | Cell Line | Rabbits | Enzyme Inhibitors - pharmacology | Corneal Keratocytes - drug effects | Imidazoles - pharmacology | Tyrphostins - pharmacology | Bridged Bicyclo Compounds, Heterocyclic - pharmacology | Regeneration - drug effects | Animals | Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology | Corneal Keratocytes - cytology | Cytological Techniques | Anisomycin - pharmacology | Pyridines - pharmacology | Transforming Growth Factor beta2 - genetics | Tubercidin - analogs & derivatives
MEDICINE, RESEARCH & EXPERIMENTAL | SURGERY | ACTIVATED PROTEIN-KINASE | DRUG DISCOVERY | SURGICAL OUTCOMES | HEPATIC-FIBROSIS | CELL BIOLOGY | DERMATOLOGY | EPITHELIAL-CELLS | GENE-EXPRESSION | INFLAMMATORY RESPONSE | MYOFIBROBLAST DIFFERENTIATION | REPORTER GENE | TRANSGENIC MICE | Lovastatin - pharmacology | Epithelium, Corneal - cytology | Humans | Actins - drug effects | Dichlororibofuranosylbenzimidazole - pharmacology | Actins - genetics | Tubercidin - pharmacology | Cornea - drug effects | Transforming Growth Factor beta2 - drug effects | Epithelium, Corneal - drug effects | Cornea - cytology | Protein Synthesis Inhibitors - pharmacology | Thiazolidines - pharmacology | Wound Healing - drug effects | Cell Line | Rabbits | Enzyme Inhibitors - pharmacology | Corneal Keratocytes - drug effects | Imidazoles - pharmacology | Tyrphostins - pharmacology | Bridged Bicyclo Compounds, Heterocyclic - pharmacology | Regeneration - drug effects | Animals | Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology | Corneal Keratocytes - cytology | Cytological Techniques | Anisomycin - pharmacology | Pyridines - pharmacology | Transforming Growth Factor beta2 - genetics | Tubercidin - analogs & derivatives
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Loading RightsNeuropsychopharmacology, ISSN 0893-133X, 04/2018, Volume 43, Issue 5, pp. 1021 - 1031
Cannabis affects cognitive performance through the activation of the endocannabinoid system, and the molecular mechanisms involved in this process are poorly...
PSYCHIATRY | BIDIRECTIONAL SYNAPTIC PLASTICITY | NEUROSCIENCES | NEUROGRANIN | AXON TERMINALS | CALMODULIN | IN-VIVO | DELTA-TETRAHYDROCANNABINOL | PHARMACOLOGY & PHARMACY | CANNABINOIDS | MODULATION | BRAIN | CB1 RECEPTORS | Dronabinol - antagonists & inhibitors | Sirolimus - analogs & derivatives | Microinjections | Male | Memory, Short-Term - drug effects | Hippocampus - drug effects | Rimonabant - pharmacology | Sirolimus - pharmacology | Dose-Response Relationship, Drug | Quinoxalines - pharmacology | Animals | Drug Interactions | Piperidines - pharmacology | Signal Transduction - drug effects | Isoenzymes - metabolism | Neurogranin - metabolism | Protein Kinase C - metabolism | Anisomycin - pharmacology | Hippocampus - enzymology | Mice | Phosphorylation - drug effects | Dizocilpine Maleate - pharmacology | Dronabinol - pharmacology | Phenols - pharmacology | TOR protein | Phosphorylation | Protein kinase C | Memory | Cognitive ability | Neurogranin | Impairment | Rapamycin | Hydrophobicity | Kinases | Object recognition | Proteins | Signaling | Cannabis | Molecular modelling | Inhibitors | Calcium-binding protein | Isoforms | Long term memory | Pretreatment | Short term memory | Tetrahydrocannabinol | Hippocampus | Calmodulin | Proteïnes quinases | Cànnabis | Memòria | Sistema endocannabinoid | Original
PSYCHIATRY | BIDIRECTIONAL SYNAPTIC PLASTICITY | NEUROSCIENCES | NEUROGRANIN | AXON TERMINALS | CALMODULIN | IN-VIVO | DELTA-TETRAHYDROCANNABINOL | PHARMACOLOGY & PHARMACY | CANNABINOIDS | MODULATION | BRAIN | CB1 RECEPTORS | Dronabinol - antagonists & inhibitors | Sirolimus - analogs & derivatives | Microinjections | Male | Memory, Short-Term - drug effects | Hippocampus - drug effects | Rimonabant - pharmacology | Sirolimus - pharmacology | Dose-Response Relationship, Drug | Quinoxalines - pharmacology | Animals | Drug Interactions | Piperidines - pharmacology | Signal Transduction - drug effects | Isoenzymes - metabolism | Neurogranin - metabolism | Protein Kinase C - metabolism | Anisomycin - pharmacology | Hippocampus - enzymology | Mice | Phosphorylation - drug effects | Dizocilpine Maleate - pharmacology | Dronabinol - pharmacology | Phenols - pharmacology | TOR protein | Phosphorylation | Protein kinase C | Memory | Cognitive ability | Neurogranin | Impairment | Rapamycin | Hydrophobicity | Kinases | Object recognition | Proteins | Signaling | Cannabis | Molecular modelling | Inhibitors | Calcium-binding protein | Isoforms | Long term memory | Pretreatment | Short term memory | Tetrahydrocannabinol | Hippocampus | Calmodulin | Proteïnes quinases | Cànnabis | Memòria | Sistema endocannabinoid | Original
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 03/2005, Volume 25, Issue 13, pp. 3294 - 3303
Long-term potentiation (LTP) is activity-dependent enhancement of synaptic strength that can critically regulate long-term memory storage. Like memory, LTP...
LTP | Protein synthesis | Neuromodulation | Memory | Hippocampus | Noradrenergic receptors | INDUCED LTP | memory | hippocampus | noradrenergic receptors | protein synthesis | HIPPOCAMPAL CA1 REGION | SYNAPTIC PLASTICITY | AREA CA1 | NEUROSCIENCES | neuromodulation | DENDRITIC SPINES | IN-VITRO | SPATIAL MEMORY | LOW-FREQUENCY STIMULATION | DENTATE GYRUS | REQUIRING CAMP | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | Adrenergic beta-Agonists - pharmacology | Receptors, Adrenergic, beta - physiology | Hippocampus - cytology | Long-Term Potentiation - radiation effects | Adrenergic beta-Antagonists - pharmacology | Propranolol - pharmacology | Animals | Drug Interactions | Isoproterenol - pharmacology | Neurons - physiology | Long-Term Potentiation - physiology | Anisomycin - pharmacology | Isoproterenol - analogs & derivatives | Flavonoids - pharmacology | Mice | Protein Synthesis Inhibitors - pharmacology | In Vitro Techniques | Neurons - drug effects | Neurons - radiation effects | Dactinomycin - pharmacology | Dose-Response Relationship, Radiation | Electric Stimulation - methods | Cellular | Molecular
LTP | Protein synthesis | Neuromodulation | Memory | Hippocampus | Noradrenergic receptors | INDUCED LTP | memory | hippocampus | noradrenergic receptors | protein synthesis | HIPPOCAMPAL CA1 REGION | SYNAPTIC PLASTICITY | AREA CA1 | NEUROSCIENCES | neuromodulation | DENDRITIC SPINES | IN-VITRO | SPATIAL MEMORY | LOW-FREQUENCY STIMULATION | DENTATE GYRUS | REQUIRING CAMP | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | Adrenergic beta-Agonists - pharmacology | Receptors, Adrenergic, beta - physiology | Hippocampus - cytology | Long-Term Potentiation - radiation effects | Adrenergic beta-Antagonists - pharmacology | Propranolol - pharmacology | Animals | Drug Interactions | Isoproterenol - pharmacology | Neurons - physiology | Long-Term Potentiation - physiology | Anisomycin - pharmacology | Isoproterenol - analogs & derivatives | Flavonoids - pharmacology | Mice | Protein Synthesis Inhibitors - pharmacology | In Vitro Techniques | Neurons - drug effects | Neurons - radiation effects | Dactinomycin - pharmacology | Dose-Response Relationship, Radiation | Electric Stimulation - methods | Cellular | Molecular
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Loading RightsNeuropharmacology, ISSN 0028-3908, 2007, Volume 52, Issue 7, pp. 1547 - 1554
Dopaminergic D1/D5-receptor-mediated processes are important for certain forms of memory and its cellular model, i.e. hippocampal long-term potentiation (LTP)...
Cellular memory formation | Heterosynaptic late-LTP | Protein synthesis-dependent LTP | Dopamine | Late-LTP | Hippocampus | protein synthesis-dependent LTP | STIMULATION | hippocampus | LATE-PHASE | INFORMATION | RECEPTOR | PROTEIN-SYNTHESIS | NEUROSCIENCES | REGION | MAINTENANCE | cellular memory formation | late-LTP | MEMORY | heterosynaptic late-LTP | PHARMACOLOGY & PHARMACY | LONG-TERM POTENTIATION | dopamine | EXPRESSION | Excitatory Postsynaptic Potentials - radiation effects | Rats, Wistar | 2-Amino-5-phosphonovalerate - pharmacology | Male | Hippocampus - drug effects | Excitatory Postsynaptic Potentials - drug effects | Excitatory Postsynaptic Potentials - physiology | Long-Term Potentiation - drug effects | Long-Term Potentiation - physiology | Protein Synthesis Inhibitors - pharmacology | Electric Stimulation - methods | Dopamine Agonists - pharmacology | Receptors, Dopamine D5 - physiology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Benzazepines - pharmacology | Long-Term Potentiation - radiation effects | Drug Synergism | Animals | Dopamine Antagonists - pharmacology | Receptors, Dopamine D1 - physiology | Hippocampus - radiation effects | 2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine - pharmacology | Anisomycin - pharmacology | Hippocampus - physiology | In Vitro Techniques
Cellular memory formation | Heterosynaptic late-LTP | Protein synthesis-dependent LTP | Dopamine | Late-LTP | Hippocampus | protein synthesis-dependent LTP | STIMULATION | hippocampus | LATE-PHASE | INFORMATION | RECEPTOR | PROTEIN-SYNTHESIS | NEUROSCIENCES | REGION | MAINTENANCE | cellular memory formation | late-LTP | MEMORY | heterosynaptic late-LTP | PHARMACOLOGY & PHARMACY | LONG-TERM POTENTIATION | dopamine | EXPRESSION | Excitatory Postsynaptic Potentials - radiation effects | Rats, Wistar | 2-Amino-5-phosphonovalerate - pharmacology | Male | Hippocampus - drug effects | Excitatory Postsynaptic Potentials - drug effects | Excitatory Postsynaptic Potentials - physiology | Long-Term Potentiation - drug effects | Long-Term Potentiation - physiology | Protein Synthesis Inhibitors - pharmacology | Electric Stimulation - methods | Dopamine Agonists - pharmacology | Receptors, Dopamine D5 - physiology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Benzazepines - pharmacology | Long-Term Potentiation - radiation effects | Drug Synergism | Animals | Dopamine Antagonists - pharmacology | Receptors, Dopamine D1 - physiology | Hippocampus - radiation effects | 2,3,4,5-Tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine - pharmacology | Anisomycin - pharmacology | Hippocampus - physiology | In Vitro Techniques
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Loading RightsNeuropsychopharmacology, ISSN 0893-133X, 01/2012, Volume 37, Issue 2, pp. 422 - 433
Memory consolidation is the process by which acquired information is converted to something concrete to be retrieved later. Here we examined a potential role...
GABA | passive avoidance test | receptor | bicuculline methiodide | mature brain-derived neurotrophic factor | memory consolidation | NEURONAL-ACTIVITY | LONG-TERM-MEMORY | C-FOS | PSYCHIATRY | NEUROTROPHIC FACTOR | BASOLATERAL AMYGDALA | SYNAPTIC PLASTICITY | NEUROSCIENCES | STATE DEPENDENCY | GABA(A) receptor | IN-VIVO | PHARMACOLOGY & PHARMACY | RECOGNITION MEMORY | ONE-TRIAL AVOIDANCE | Memory - drug effects | Humans | Retention (Psychology) - drug effects | Carbazoles - administration & dosage | Male | Indole Alkaloids - administration & dosage | Retention (Psychology) - physiology | CA1 Region, Hippocampal - drug effects | GABA-A Receptor Antagonists - administration & dosage | Brain-Derived Neurotrophic Factor - pharmacology | Brain-Derived Neurotrophic Factor - physiology | Reaction Time - drug effects | CA1 Region, Hippocampal - metabolism | Anisomycin - administration & dosage | Brain-Derived Neurotrophic Factor - metabolism | Bicuculline - analogs & derivatives | Bicuculline - antagonists & inhibitors | GABA-A Receptor Antagonists - pharmacology | Microinjections | Avoidance Learning - physiology | Bicuculline - pharmacology | Recombinant Proteins - pharmacology | Mice, Inbred ICR | Recombinant Proteins - administration & dosage | Antibodies - pharmacology | Antibodies - administration & dosage | Bicuculline - administration & dosage | Brain-Derived Neurotrophic Factor - administration & dosage | Animals | Indole Alkaloids - pharmacology | Receptors, GABA-A - physiology | Anisomycin - pharmacology | Avoidance Learning - drug effects | Mice | Carbazoles - pharmacology | Memory - physiology
GABA | passive avoidance test | receptor | bicuculline methiodide | mature brain-derived neurotrophic factor | memory consolidation | NEURONAL-ACTIVITY | LONG-TERM-MEMORY | C-FOS | PSYCHIATRY | NEUROTROPHIC FACTOR | BASOLATERAL AMYGDALA | SYNAPTIC PLASTICITY | NEUROSCIENCES | STATE DEPENDENCY | GABA(A) receptor | IN-VIVO | PHARMACOLOGY & PHARMACY | RECOGNITION MEMORY | ONE-TRIAL AVOIDANCE | Memory - drug effects | Humans | Retention (Psychology) - drug effects | Carbazoles - administration & dosage | Male | Indole Alkaloids - administration & dosage | Retention (Psychology) - physiology | CA1 Region, Hippocampal - drug effects | GABA-A Receptor Antagonists - administration & dosage | Brain-Derived Neurotrophic Factor - pharmacology | Brain-Derived Neurotrophic Factor - physiology | Reaction Time - drug effects | CA1 Region, Hippocampal - metabolism | Anisomycin - administration & dosage | Brain-Derived Neurotrophic Factor - metabolism | Bicuculline - analogs & derivatives | Bicuculline - antagonists & inhibitors | GABA-A Receptor Antagonists - pharmacology | Microinjections | Avoidance Learning - physiology | Bicuculline - pharmacology | Recombinant Proteins - pharmacology | Mice, Inbred ICR | Recombinant Proteins - administration & dosage | Antibodies - pharmacology | Antibodies - administration & dosage | Bicuculline - administration & dosage | Brain-Derived Neurotrophic Factor - administration & dosage | Animals | Indole Alkaloids - pharmacology | Receptors, GABA-A - physiology | Anisomycin - pharmacology | Avoidance Learning - drug effects | Mice | Carbazoles - pharmacology | Memory - physiology
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Loading RightsNeuroReport, ISSN 0959-4965, 09/2016, Volume 27, Issue 14, pp. 1101 - 1105
Microglial engulfment is a basic function to clean up dead and injured cells and invaders, such as bacteria. This study was designed to assess the effects of...
engulfment | isoflurane | microglia | p38 MAPK | Animals, Newborn | Calcium-Binding Proteins - metabolism | Microglia - metabolism | Isoflurane - pharmacology | Microglia - drug effects | Cells, Cultured | Anesthetics - pharmacology | Imidazoles - pharmacology | Animals | Cerebellum - cytology | Lipopolysaccharides - pharmacology | Anisomycin - pharmacology | Mice | Microfilament Proteins - metabolism | Pyridines - pharmacology | p38 Mitogen-Activated Protein Kinases - metabolism | Protein Synthesis Inhibitors - pharmacology | Interferon-gamma - pharmacology
engulfment | isoflurane | microglia | p38 MAPK | Animals, Newborn | Calcium-Binding Proteins - metabolism | Microglia - metabolism | Isoflurane - pharmacology | Microglia - drug effects | Cells, Cultured | Anesthetics - pharmacology | Imidazoles - pharmacology | Animals | Cerebellum - cytology | Lipopolysaccharides - pharmacology | Anisomycin - pharmacology | Mice | Microfilament Proteins - metabolism | Pyridines - pharmacology | p38 Mitogen-Activated Protein Kinases - metabolism | Protein Synthesis Inhibitors - pharmacology | Interferon-gamma - pharmacology
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 02/2005, Volume 25, Issue 7, pp. 1750 - 1760
The efficiency of neural circuits is enhanced not only by increasing synaptic strength but also by increasing intrinsic excitability. In contrast to the...
Intrinsic excitability | channel | CaM kinases | NMDA receptors | Protein synthesis | Long-term potentiation | ACTIVATED PROTEIN-KINASE | EPSP-SPIKE POTENTIATION | SYNAPTIC-TRANSMISSION | intrinsic excitability | BIDIRECTIONAL CHANGES | Na+ channel | protein synthesis | LTP | AREA CA1 | NEUROSCIENCES | LASTING POTENTIATION | SLICES | RAT CEREBELLUM | long-term potentiation | PLASTICITY | Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors | Calcium - metabolism | Emetine - pharmacology | 2-Amino-5-phosphonovalerate - pharmacology | Potassium Channels - physiology | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - analogs & derivatives | Sodium Channels - physiology | Pyramidal Cells - physiology | Egtazic Acid - analogs & derivatives | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Long-Term Potentiation - physiology | Calcium-Calmodulin-Dependent Protein Kinase Type 2 | 4-Aminopyridine - pharmacology | Calcium-Calmodulin-Dependent Protein Kinases - physiology | Phosphinic Acids | Rats | Excitatory Amino Acid Antagonists - pharmacology | Sodium Channels - drug effects | Bicuculline - pharmacology | Potassium Channels - drug effects | Rats, Sprague-Dawley | Learning - physiology | Patch-Clamp Techniques | Animals | Egtazic Acid - pharmacology | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - pharmacology | Anisomycin - pharmacology | Propanolamines | Cellular | Molecular
Intrinsic excitability | channel | CaM kinases | NMDA receptors | Protein synthesis | Long-term potentiation | ACTIVATED PROTEIN-KINASE | EPSP-SPIKE POTENTIATION | SYNAPTIC-TRANSMISSION | intrinsic excitability | BIDIRECTIONAL CHANGES | Na+ channel | protein synthesis | LTP | AREA CA1 | NEUROSCIENCES | LASTING POTENTIATION | SLICES | RAT CEREBELLUM | long-term potentiation | PLASTICITY | Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors | Calcium - metabolism | Emetine - pharmacology | 2-Amino-5-phosphonovalerate - pharmacology | Potassium Channels - physiology | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - analogs & derivatives | Sodium Channels - physiology | Pyramidal Cells - physiology | Egtazic Acid - analogs & derivatives | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Long-Term Potentiation - physiology | Calcium-Calmodulin-Dependent Protein Kinase Type 2 | 4-Aminopyridine - pharmacology | Calcium-Calmodulin-Dependent Protein Kinases - physiology | Phosphinic Acids | Rats | Excitatory Amino Acid Antagonists - pharmacology | Sodium Channels - drug effects | Bicuculline - pharmacology | Potassium Channels - drug effects | Rats, Sprague-Dawley | Learning - physiology | Patch-Clamp Techniques | Animals | Egtazic Acid - pharmacology | 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine - pharmacology | Anisomycin - pharmacology | Propanolamines | Cellular | Molecular
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Loading RightsNeurobiology of Learning and Memory, ISSN 1074-7427, 02/2017, Volume 138, pp. 226 - 237
Several works have shown that the formation of different long-term memories relies on a behavioral tagging process. In other words, to establish a lasting...
Behavioral tagging | Dopamine | Locus coereleus | Ventral tegmental area | Noradrenaline | Memory | OBJECT RECOGNITION MEMORY | BETA-ADRENERGIC-RECEPTORS | HIPPOCAMPAL CA1 REGION | NEUROSCIENCES | PSYCHOLOGY | PSYCHOLOGY, MULTIDISCIPLINARY | SPATIAL-MEMORY | MEDIAL PREFRONTAL CORTEX | LOCUS-COERULEUS | BEHAVIORAL SCIENCES | LONG-TERM POTENTIATION | DOPAMINE-RECEPTORS | ASCENDING PROJECTIONS | Memory - drug effects | Muscimol - pharmacology | Rats, Wistar | Memory Consolidation - drug effects | Locus Coeruleus - drug effects | Protein Biosynthesis - physiology | Male | Recognition (Psychology) - physiology | Adrenergic beta-Antagonists - pharmacology | Propranolol - pharmacology | GABA-A Receptor Agonists - pharmacology | Behavior, Animal - drug effects | Neurons - metabolism | Protein Synthesis Inhibitors - pharmacology | Neurons - drug effects | Ventral Tegmental Area - drug effects | Rats | Behavior, Animal - physiology | Avoidance Learning - physiology | Benzazepines - pharmacology | Memory Consolidation - physiology | Animals | Recognition (Psychology) - drug effects | Dopamine Antagonists - pharmacology | Ventral Tegmental Area - metabolism | Anisomycin - pharmacology | Protein Biosynthesis - drug effects | Avoidance Learning - drug effects | Locus Coeruleus - metabolism | Memory - physiology | Protein biosynthesis | Proteins | Multiprocessing | Analysis | Neurophysiology
Behavioral tagging | Dopamine | Locus coereleus | Ventral tegmental area | Noradrenaline | Memory | OBJECT RECOGNITION MEMORY | BETA-ADRENERGIC-RECEPTORS | HIPPOCAMPAL CA1 REGION | NEUROSCIENCES | PSYCHOLOGY | PSYCHOLOGY, MULTIDISCIPLINARY | SPATIAL-MEMORY | MEDIAL PREFRONTAL CORTEX | LOCUS-COERULEUS | BEHAVIORAL SCIENCES | LONG-TERM POTENTIATION | DOPAMINE-RECEPTORS | ASCENDING PROJECTIONS | Memory - drug effects | Muscimol - pharmacology | Rats, Wistar | Memory Consolidation - drug effects | Locus Coeruleus - drug effects | Protein Biosynthesis - physiology | Male | Recognition (Psychology) - physiology | Adrenergic beta-Antagonists - pharmacology | Propranolol - pharmacology | GABA-A Receptor Agonists - pharmacology | Behavior, Animal - drug effects | Neurons - metabolism | Protein Synthesis Inhibitors - pharmacology | Neurons - drug effects | Ventral Tegmental Area - drug effects | Rats | Behavior, Animal - physiology | Avoidance Learning - physiology | Benzazepines - pharmacology | Memory Consolidation - physiology | Animals | Recognition (Psychology) - drug effects | Dopamine Antagonists - pharmacology | Ventral Tegmental Area - metabolism | Anisomycin - pharmacology | Protein Biosynthesis - drug effects | Avoidance Learning - drug effects | Locus Coeruleus - metabolism | Memory - physiology | Protein biosynthesis | Proteins | Multiprocessing | Analysis | Neurophysiology
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