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Publication DateJournal of Neuroscience, ISSN 0270-6474, 01/2010, Volume 30, Issue 2, pp. 545 - 555
Marijuana is a widely used drug that impairs memory through interaction between its psychoactive constituent, Delta-9-tetrahydrocannabinol (Delta(9)-THC), and...
CA1 Region, Hippocampal - cytology | Receptor, Adenosine A1 - physiology | Neurons - cytology | Xanthines - pharmacology | Excitatory Postsynaptic Potentials - drug effects | Patch-Clamp Techniques - methods | Receptor, Cannabinoid, CB1 - physiology | Excitatory Postsynaptic Potentials - physiology | Quinoxalines - pharmacology | Neural Inhibition - physiology | Receptor, Cannabinoid, CB1 - agonists | Piperidines - pharmacology | Caffeine - pharmacology | Dronabinol - pharmacology | Electric Stimulation - methods | Pyrazoles - pharmacology | Presynaptic Terminals - drug effects | Mice, Inbred C57BL | Morpholines - pharmacology | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Calcium Channel Blockers - pharmacology | GABA Antagonists - pharmacology | Mice, Knockout | Naphthalenes - pharmacology | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Analysis of Variance | Phosphinic Acids - pharmacology | Benzoxazines - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Adenosine - metabolism | Picrotoxin - pharmacology | Presynaptic Terminals - metabolism | Glutamic Acid - metabolism | Mice | Receptor, Cannabinoid, CB1 - deficiency | Receptor, Cannabinoid, CB1 - antagonists & inhibitors | In Vitro Techniques | Propanolamines - pharmacology | Neural Inhibition - drug effects
CA1 Region, Hippocampal - cytology | Receptor, Adenosine A1 - physiology | Neurons - cytology | Xanthines - pharmacology | Excitatory Postsynaptic Potentials - drug effects | Patch-Clamp Techniques - methods | Receptor, Cannabinoid, CB1 - physiology | Excitatory Postsynaptic Potentials - physiology | Quinoxalines - pharmacology | Neural Inhibition - physiology | Receptor, Cannabinoid, CB1 - agonists | Piperidines - pharmacology | Caffeine - pharmacology | Dronabinol - pharmacology | Electric Stimulation - methods | Pyrazoles - pharmacology | Presynaptic Terminals - drug effects | Mice, Inbred C57BL | Morpholines - pharmacology | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Calcium Channel Blockers - pharmacology | GABA Antagonists - pharmacology | Mice, Knockout | Naphthalenes - pharmacology | Methoxyhydroxyphenylglycol - analogs & derivatives | Methoxyhydroxyphenylglycol - pharmacology | Animals | Analysis of Variance | Phosphinic Acids - pharmacology | Benzoxazines - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Adenosine - metabolism | Picrotoxin - pharmacology | Presynaptic Terminals - metabolism | Glutamic Acid - metabolism | Mice | Receptor, Cannabinoid, CB1 - deficiency | Receptor, Cannabinoid, CB1 - antagonists & inhibitors | In Vitro Techniques | Propanolamines - pharmacology | Neural Inhibition - drug effects
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 09/2004, Volume 24, Issue 36, pp. 7821 - 7828
It is widely believed that long-term depression (LTD) and its counterpart, long-term potentiation (LTP), involve mechanisms that are crucial for learning and...
NR2B | Depotentiation | LTP | NMDARs | LTD | NR2A | HIPPOCAMPAL SYNAPTIC PLASTICITY | RAT | D-ASPARTATE RECEPTORS | PERIRHINAL CORTEX | depotentiation | SUBUNIT COMPOSITION | NEUROSCIENCES | FUNCTIONAL-PROPERTIES | IN-VITRO | AMPA RECEPTORS | GLUTAMATE TRANSPORTERS | EXPRESSION | Receptors, Metabotropic Glutamate - drug effects | Protein Subunits | 2-Amino-5-phosphonovalerate - pharmacology | Neurotransmitter Uptake Inhibitors - pharmacology | Dicarboxylic Acids - pharmacology | Long-Term Synaptic Depression - drug effects | Excitatory Postsynaptic Potentials - drug effects | N-Methylaspartate - pharmacology | Pyrrolidines - pharmacology | Quinoxalines - pharmacology | Neurons - ultrastructure | Long-Term Potentiation - drug effects | Piperidines - pharmacology | Neurons - physiology | Long-Term Potentiation - physiology | Cerebral Cortex - drug effects | Neurons - drug effects | Phenols - pharmacology | Long-Term Synaptic Depression - physiology | Receptors, N-Methyl-D-Aspartate - drug effects | Glutamic Acid - pharmacology | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Receptors, N-Methyl-D-Aspartate - physiology | Animals | Picrotoxin - pharmacology | Cerebral Cortex - physiology | Dizocilpine Maleate - pharmacology | Aspartic Acid - pharmacology | Cellular | Molecular
NR2B | Depotentiation | LTP | NMDARs | LTD | NR2A | HIPPOCAMPAL SYNAPTIC PLASTICITY | RAT | D-ASPARTATE RECEPTORS | PERIRHINAL CORTEX | depotentiation | SUBUNIT COMPOSITION | NEUROSCIENCES | FUNCTIONAL-PROPERTIES | IN-VITRO | AMPA RECEPTORS | GLUTAMATE TRANSPORTERS | EXPRESSION | Receptors, Metabotropic Glutamate - drug effects | Protein Subunits | 2-Amino-5-phosphonovalerate - pharmacology | Neurotransmitter Uptake Inhibitors - pharmacology | Dicarboxylic Acids - pharmacology | Long-Term Synaptic Depression - drug effects | Excitatory Postsynaptic Potentials - drug effects | N-Methylaspartate - pharmacology | Pyrrolidines - pharmacology | Quinoxalines - pharmacology | Neurons - ultrastructure | Long-Term Potentiation - drug effects | Piperidines - pharmacology | Neurons - physiology | Long-Term Potentiation - physiology | Cerebral Cortex - drug effects | Neurons - drug effects | Phenols - pharmacology | Long-Term Synaptic Depression - physiology | Receptors, N-Methyl-D-Aspartate - drug effects | Glutamic Acid - pharmacology | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Receptors, N-Methyl-D-Aspartate - physiology | Animals | Picrotoxin - pharmacology | Cerebral Cortex - physiology | Dizocilpine Maleate - pharmacology | Aspartic Acid - pharmacology | Cellular | Molecular
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 2013, Volume 33, Issue 38, pp. 15011 - 15021
Hippocampal CA1 pyramidal neurons are normally quiescent but can fire spontaneously when stimulated by muscarinic agonists. In brain slice recordings from...
HYPERPOLARIZATION-ACTIVATED CURRENT | RAT HIPPOCAMPAL-NEURONS | PROTEIN-KINASE-C | LAYER-V NEURONS | ENTORHINAL CORTEX | MEMBRANE-POTENTIALS | STATUS EPILEPTICUS | CHOLINERGIC MODULATION | VOLTAGE-CLAMP ANALYSIS | CURRENT I-H | NEUROSCIENCES | CA1 Region, Hippocampal - cytology | Cholinergic Agents - pharmacology | Male | Sodium Channels - physiology | Biological Clocks - drug effects | Quinoxalines - pharmacology | Female | Pyramidal Cells - drug effects | Nickel - pharmacology | Action Potentials - drug effects | Animals, Newborn | Acetylcholine - pharmacology | Valine - analogs & derivatives | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Sodium Channels - drug effects | Pyrimidines - pharmacology | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Phosphinic Acids - pharmacology | Muscarine - pharmacology | Picrotoxin - pharmacology | Mice | Valine - pharmacology | In Vitro Techniques | Propanolamines - pharmacology
HYPERPOLARIZATION-ACTIVATED CURRENT | RAT HIPPOCAMPAL-NEURONS | PROTEIN-KINASE-C | LAYER-V NEURONS | ENTORHINAL CORTEX | MEMBRANE-POTENTIALS | STATUS EPILEPTICUS | CHOLINERGIC MODULATION | VOLTAGE-CLAMP ANALYSIS | CURRENT I-H | NEUROSCIENCES | CA1 Region, Hippocampal - cytology | Cholinergic Agents - pharmacology | Male | Sodium Channels - physiology | Biological Clocks - drug effects | Quinoxalines - pharmacology | Female | Pyramidal Cells - drug effects | Nickel - pharmacology | Action Potentials - drug effects | Animals, Newborn | Acetylcholine - pharmacology | Valine - analogs & derivatives | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Sodium Channels - drug effects | Pyrimidines - pharmacology | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Phosphinic Acids - pharmacology | Muscarine - pharmacology | Picrotoxin - pharmacology | Mice | Valine - pharmacology | In Vitro Techniques | Propanolamines - pharmacology
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 10/2009, Volume 29, Issue 41, pp. 12982 - 12993
Estrogen, in addition to its genomic effects in brain, causes rapid and reversible changes to synaptic operations. We report here that these acute actions are...
SPRAGUE-DAWLEY RATS | INDUCED INCREASE | DENDRITIC SPINE DENSITY | NEUROTROPHIC FACTOR | ACTIN POLYMERIZATION | HIPPOCAMPAL PYRAMIDAL NEURONS | LIM-KINASE | REPLACEMENT THERAPY | LONG-TERM POTENTIATION | NEUROSCIENCES | ESTROUS-CYCLE | Estradiol - analogs & derivatives | Synaptic Transmission - physiology | Age Factors | Rats, Long-Evans | Actins - metabolism | Neuronal Plasticity - drug effects | Estrogen Antagonists - pharmacology | Male | Neurons - cytology | Ginsenosides - pharmacology | Excitatory Postsynaptic Potentials - drug effects | Neural Pathways - physiology | Patch-Clamp Techniques - methods | Dose-Response Relationship, Drug | Excitatory Postsynaptic Potentials - physiology | Sapogenins - pharmacology | Neuronal Plasticity - physiology | Long-Term Potentiation - drug effects | Dendritic Spines - drug effects | Neurons - physiology | Female | Synaptic Transmission - drug effects | Estrogens - metabolism | Neurons - drug effects | Thiazolidines - pharmacology | Electric Stimulation - methods | Estradiol - pharmacology | Phenols - pharmacology | Animals, Newborn | Dendritic Spines - physiology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Ovariectomy - methods | Biophysics | Hippocampus - cytology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Microscopy, Confocal | Bridged Bicyclo Compounds, Heterocyclic - pharmacology | Animals | Analysis of Variance | Signal Transduction - drug effects | Cytoskeleton - metabolism | Picrotoxin - pharmacology | Oxazoles - pharmacology | In Vitro Techniques
SPRAGUE-DAWLEY RATS | INDUCED INCREASE | DENDRITIC SPINE DENSITY | NEUROTROPHIC FACTOR | ACTIN POLYMERIZATION | HIPPOCAMPAL PYRAMIDAL NEURONS | LIM-KINASE | REPLACEMENT THERAPY | LONG-TERM POTENTIATION | NEUROSCIENCES | ESTROUS-CYCLE | Estradiol - analogs & derivatives | Synaptic Transmission - physiology | Age Factors | Rats, Long-Evans | Actins - metabolism | Neuronal Plasticity - drug effects | Estrogen Antagonists - pharmacology | Male | Neurons - cytology | Ginsenosides - pharmacology | Excitatory Postsynaptic Potentials - drug effects | Neural Pathways - physiology | Patch-Clamp Techniques - methods | Dose-Response Relationship, Drug | Excitatory Postsynaptic Potentials - physiology | Sapogenins - pharmacology | Neuronal Plasticity - physiology | Long-Term Potentiation - drug effects | Dendritic Spines - drug effects | Neurons - physiology | Female | Synaptic Transmission - drug effects | Estrogens - metabolism | Neurons - drug effects | Thiazolidines - pharmacology | Electric Stimulation - methods | Estradiol - pharmacology | Phenols - pharmacology | Animals, Newborn | Dendritic Spines - physiology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Ovariectomy - methods | Biophysics | Hippocampus - cytology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Microscopy, Confocal | Bridged Bicyclo Compounds, Heterocyclic - pharmacology | Animals | Analysis of Variance | Signal Transduction - drug effects | Cytoskeleton - metabolism | Picrotoxin - pharmacology | Oxazoles - pharmacology | In Vitro Techniques
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Loading RightsNature, ISSN 0028-0836, 01/2019, Volume 565, Issue 7740, pp. 454 - 459
Type-A gamma-aminobutyric (GABA(A)) receptors are ligand-gated chloride channels with a very rich pharmacology. Some of their modulators, including...
BICUCULLINE | A RECEPTORS | PICROTOXIN | CHANNEL | MULTIDISCIPLINARY SCIENCES | CLASSICAL BENZODIAZEPINES | CRYO-EM | AMINOBUTYRIC ACID(A) RECEPTORS | BINDING | ACETYLCHOLINE-RECEPTOR | SUBUNIT
BICUCULLINE | A RECEPTORS | PICROTOXIN | CHANNEL | MULTIDISCIPLINARY SCIENCES | CLASSICAL BENZODIAZEPINES | CRYO-EM | AMINOBUTYRIC ACID(A) RECEPTORS | BINDING | ACETYLCHOLINE-RECEPTOR | SUBUNIT
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Loading RightsPsychopharmacology, ISSN 0033-3158, 9/2016, Volume 233, Issue 17, pp. 3125 - 3134
We previously reported that the fluvoxamine-induced increase in prefrontal dopamine levels is enhanced by adrenalectomy/castration (which results in...
5-HT 1A receptor | Neurosciences | Biomedicine | Prefrontal dopamine release | GABA A receptor | Picrotoxin | σ 1 receptor | Pharmacology/Toxicology | Psychiatry | GABA | receptor | 5-HT | gamma-Aminobutyric Acid - metabolism | Nucleus Accumbens - metabolism | Serotonin 5-HT1 Receptor Agonists - pharmacology | Male | Diazepam - pharmacology | Prefrontal Cortex - drug effects | Castration | GABA Modulators - pharmacology | Dioxoles - pharmacology | Synaptic Transmission - drug effects | Dioxanes - pharmacology | Receptors, sigma - metabolism | Dopamine - metabolism | Receptor, Serotonin, 5-HT1A - metabolism | GABA-A Receptor Antagonists - pharmacology | Ventral Tegmental Area - drug effects | Proto-Oncogene Proteins c-fos - metabolism | Fluvoxamine - pharmacology | Proto-Oncogene Proteins c-fos - drug effects | GABA Antagonists - pharmacology | Orchiectomy | Adrenalectomy | Phenazocine - analogs & derivatives | Animals | Norepinephrine - metabolism | Phenazocine - pharmacology | Serotonin - metabolism | Ventral Tegmental Area - metabolism | Prefrontal Cortex - metabolism | Receptors, GABA - metabolism | Picrotoxin - pharmacology | Mice | Receptors, GABA-A - metabolism | Antipsychotic Agents - pharmacology | Nucleus Accumbens - drug effects | Serotonin Uptake Inhibitors - pharmacology
5-HT 1A receptor | Neurosciences | Biomedicine | Prefrontal dopamine release | GABA A receptor | Picrotoxin | σ 1 receptor | Pharmacology/Toxicology | Psychiatry | GABA | receptor | 5-HT | gamma-Aminobutyric Acid - metabolism | Nucleus Accumbens - metabolism | Serotonin 5-HT1 Receptor Agonists - pharmacology | Male | Diazepam - pharmacology | Prefrontal Cortex - drug effects | Castration | GABA Modulators - pharmacology | Dioxoles - pharmacology | Synaptic Transmission - drug effects | Dioxanes - pharmacology | Receptors, sigma - metabolism | Dopamine - metabolism | Receptor, Serotonin, 5-HT1A - metabolism | GABA-A Receptor Antagonists - pharmacology | Ventral Tegmental Area - drug effects | Proto-Oncogene Proteins c-fos - metabolism | Fluvoxamine - pharmacology | Proto-Oncogene Proteins c-fos - drug effects | GABA Antagonists - pharmacology | Orchiectomy | Adrenalectomy | Phenazocine - analogs & derivatives | Animals | Norepinephrine - metabolism | Phenazocine - pharmacology | Serotonin - metabolism | Ventral Tegmental Area - metabolism | Prefrontal Cortex - metabolism | Receptors, GABA - metabolism | Picrotoxin - pharmacology | Mice | Receptors, GABA-A - metabolism | Antipsychotic Agents - pharmacology | Nucleus Accumbens - drug effects | Serotonin Uptake Inhibitors - pharmacology
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Loading RightsJournal of Neurophysiology, ISSN 0022-3077, 07/2005, Volume 94, Issue 1, pp. 491 - 500
Spontaneous calcium oscillations in mushroom bodies of late stage pupal and adult Drosophila brains have been implicated in memory consolidation during...
VENTRICULAR ZONE | PHYSIOLOGY | CA2 | SYNAPTIC-TRANSMISSION | NEURAL ACTIVITY | NEURONAL DIFFERENTIATION | METAMORPHOSIS | CURRENTS | NICOTINIC ACETYLCHOLINE-RECEPTORS | MELANOGASTER | NEUROSCIENCES | GABA RECEPTORS | Age Factors | Iodine - pharmacology | Calcium - metabolism | Nicotinic Antagonists - pharmacology | Spider Venoms - pharmacology | Chlorine - pharmacology | Patch-Clamp Techniques - methods | Nicotine - pharmacology | Diagnostic Imaging - methods | Salicylates - pharmacology | Calcium Channels - physiology | Drug Interactions | Cobalt - pharmacology | Time Factors | Neurons - physiology | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Caffeine - pharmacology | Mushroom Bodies - cytology | Tetrodotoxin - pharmacology | Neurons - drug effects | Electric Stimulation - methods | Phenols - pharmacology | Green Fluorescent Proteins - metabolism | Drosophila | Valine - analogs & derivatives | Cells, Cultured | Enzyme Inhibitors - pharmacology | gamma-Aminobutyric Acid - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Fura-2 - metabolism | GABA Antagonists - pharmacology | Pupa | Animals | Analysis of Variance | Curare - pharmacology | Picrotoxin - pharmacology | Thapsigargin - pharmacology | Valine - pharmacology | Dose-Response Relationship, Radiation | Drug Combinations
VENTRICULAR ZONE | PHYSIOLOGY | CA2 | SYNAPTIC-TRANSMISSION | NEURAL ACTIVITY | NEURONAL DIFFERENTIATION | METAMORPHOSIS | CURRENTS | NICOTINIC ACETYLCHOLINE-RECEPTORS | MELANOGASTER | NEUROSCIENCES | GABA RECEPTORS | Age Factors | Iodine - pharmacology | Calcium - metabolism | Nicotinic Antagonists - pharmacology | Spider Venoms - pharmacology | Chlorine - pharmacology | Patch-Clamp Techniques - methods | Nicotine - pharmacology | Diagnostic Imaging - methods | Salicylates - pharmacology | Calcium Channels - physiology | Drug Interactions | Cobalt - pharmacology | Time Factors | Neurons - physiology | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Caffeine - pharmacology | Mushroom Bodies - cytology | Tetrodotoxin - pharmacology | Neurons - drug effects | Electric Stimulation - methods | Phenols - pharmacology | Green Fluorescent Proteins - metabolism | Drosophila | Valine - analogs & derivatives | Cells, Cultured | Enzyme Inhibitors - pharmacology | gamma-Aminobutyric Acid - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Fura-2 - metabolism | GABA Antagonists - pharmacology | Pupa | Animals | Analysis of Variance | Curare - pharmacology | Picrotoxin - pharmacology | Thapsigargin - pharmacology | Valine - pharmacology | Dose-Response Relationship, Radiation | Drug Combinations
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 10/2012, Volume 32, Issue 43, pp. 15124 - 15132
We found previously that acute ex vivo as well as repeated cycles of in vivo ethanol exposure and withdrawal, including excessive voluntary consumption of...
DOPAMINE NEURONS | NR2B-CONTAINING NMDA RECEPTORS | LASTING ADAPTATIONS | BASAL GANGLIA | D-ASPARTATE RECEPTORS | DORSAL STRIATUM | LONG-TERM POTENTIATION | MEDIUM SPINY NEURONS | SYNAPTIC PLASTICITY | NEUROSCIENCES | PROTEIN-KINASE-II | Synaptosomes - drug effects | Sulpiride - pharmacology | Electric Stimulation | Rats, Long-Evans | Male | Synaptosomes - metabolism | Corpus Striatum - cytology | Excitatory Postsynaptic Potentials - drug effects | N-Methylaspartate - pharmacology | Central Nervous System Depressants - pharmacology | Quinoxalines - pharmacology | Self Administration | Conditioning, Operant - drug effects | Long-Term Potentiation - drug effects | Neurons - drug effects | Receptors, AMPA - metabolism | Animals, Newborn | Sucrose - administration & dosage | Choice Behavior - drug effects | Food Preferences - drug effects | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Evoked Potentials - drug effects | Up-Regulation - drug effects | Ethanol - pharmacology | Patch-Clamp Techniques | Animals | Analysis of Variance | Dopamine Antagonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Corpus Striatum - drug effects | Picrotoxin - pharmacology | In Vitro Techniques | Sweetening Agents - administration & dosage
DOPAMINE NEURONS | NR2B-CONTAINING NMDA RECEPTORS | LASTING ADAPTATIONS | BASAL GANGLIA | D-ASPARTATE RECEPTORS | DORSAL STRIATUM | LONG-TERM POTENTIATION | MEDIUM SPINY NEURONS | SYNAPTIC PLASTICITY | NEUROSCIENCES | PROTEIN-KINASE-II | Synaptosomes - drug effects | Sulpiride - pharmacology | Electric Stimulation | Rats, Long-Evans | Male | Synaptosomes - metabolism | Corpus Striatum - cytology | Excitatory Postsynaptic Potentials - drug effects | N-Methylaspartate - pharmacology | Central Nervous System Depressants - pharmacology | Quinoxalines - pharmacology | Self Administration | Conditioning, Operant - drug effects | Long-Term Potentiation - drug effects | Neurons - drug effects | Receptors, AMPA - metabolism | Animals, Newborn | Sucrose - administration & dosage | Choice Behavior - drug effects | Food Preferences - drug effects | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Evoked Potentials - drug effects | Up-Regulation - drug effects | Ethanol - pharmacology | Patch-Clamp Techniques | Animals | Analysis of Variance | Dopamine Antagonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Corpus Striatum - drug effects | Picrotoxin - pharmacology | In Vitro Techniques | Sweetening Agents - administration & dosage
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 02/2007, Volume 27, Issue 6, pp. 1445 - 1455
Excitotoxicity is associated with stroke, brain trauma, and a number of neurodegenerative disorders. In the brain, during excitotoxic insults, neurons undergo...
Anion channel | Varicosity | Cortical neuron | Volume regulation | Excitotoxicity | Necrosis | cortical neuron | anion channel | EPILEPTIC FOCUS | DEATH | HIPPOCAMPAL-NEURONS | NEUROSCIENCES | DENDRITE MORPHOLOGY | MORPHOLOGICAL-CHANGES | necrosis | RAT CORTICAL CULTURES | varicosity | GLUTAMATE-RECEPTOR ACTIVATION | CELL-CULTURE | excitotoxicity | volume regulation | REVERSIBLE CHANGES | BRAIN NEURONS | Apoptosis - drug effects | 2-Amino-5-phosphonovalerate - pharmacology | Nitrobenzoates - pharmacology | Potassium Channels - physiology | Ion Channels - drug effects | Dendrites - ultrastructure | Ion Channels - physiology | Sodium Chloride Symporter Inhibitors - pharmacology | Cerebral Cortex - cytology | Phloretin - pharmacology | Cells, Cultured - pathology | Quinine - pharmacology | Somatosensory Cortex - cytology | Tetrodotoxin - pharmacology | Neurons - drug effects | Chlorides - physiology | 4-Aminopyridine - pharmacology | Potassium Channel Blockers - pharmacology | Sodium Chloride Symporters - physiology | Dendrites - drug effects | Cells, Cultured - drug effects | Receptors, N-Methyl-D-Aspartate - drug effects | GABA-A Receptor Antagonists | Mice, Inbred C57BL | Cell Size | Neurotoxins - toxicity | Excitatory Amino Acid Antagonists - pharmacology | Bicuculline - pharmacology | Benzothiadiazines - pharmacology | Receptors, N-Methyl-D-Aspartate - physiology | Bumetanide - pharmacology | Ion Channels - antagonists & inhibitors | Patch-Clamp Techniques | Animals | Glycolates - pharmacology | Picrotoxin - pharmacology | Mice | Dizocilpine Maleate - pharmacology | N-Methylaspartate - toxicity
Anion channel | Varicosity | Cortical neuron | Volume regulation | Excitotoxicity | Necrosis | cortical neuron | anion channel | EPILEPTIC FOCUS | DEATH | HIPPOCAMPAL-NEURONS | NEUROSCIENCES | DENDRITE MORPHOLOGY | MORPHOLOGICAL-CHANGES | necrosis | RAT CORTICAL CULTURES | varicosity | GLUTAMATE-RECEPTOR ACTIVATION | CELL-CULTURE | excitotoxicity | volume regulation | REVERSIBLE CHANGES | BRAIN NEURONS | Apoptosis - drug effects | 2-Amino-5-phosphonovalerate - pharmacology | Nitrobenzoates - pharmacology | Potassium Channels - physiology | Ion Channels - drug effects | Dendrites - ultrastructure | Ion Channels - physiology | Sodium Chloride Symporter Inhibitors - pharmacology | Cerebral Cortex - cytology | Phloretin - pharmacology | Cells, Cultured - pathology | Quinine - pharmacology | Somatosensory Cortex - cytology | Tetrodotoxin - pharmacology | Neurons - drug effects | Chlorides - physiology | 4-Aminopyridine - pharmacology | Potassium Channel Blockers - pharmacology | Sodium Chloride Symporters - physiology | Dendrites - drug effects | Cells, Cultured - drug effects | Receptors, N-Methyl-D-Aspartate - drug effects | GABA-A Receptor Antagonists | Mice, Inbred C57BL | Cell Size | Neurotoxins - toxicity | Excitatory Amino Acid Antagonists - pharmacology | Bicuculline - pharmacology | Benzothiadiazines - pharmacology | Receptors, N-Methyl-D-Aspartate - physiology | Bumetanide - pharmacology | Ion Channels - antagonists & inhibitors | Patch-Clamp Techniques | Animals | Glycolates - pharmacology | Picrotoxin - pharmacology | Mice | Dizocilpine Maleate - pharmacology | N-Methylaspartate - toxicity
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 08/2011, Volume 31, Issue 31, pp. 11244 - 11255
Drugs of abuse such as cocaine induce long-term synaptic plasticity in the reward circuitry, which underlies the formation of drug-associated memories and...
TRANSDUCTION CASCADE | ACTIVATED PROTEIN-KINASE | ENDOCANNABINOID RELEASE | MAP KINASE | GABAERGIC SYNAPSES | LONG-TERM DEPRESSION | MIDBRAIN DOPAMINE NEURONS | BEHAVIORAL SENSITIZATION | NEUROSCIENCES | NUCLEUS-ACCUMBENS | CB1 RECEPTORS | Electric Stimulation | Neuronal Plasticity - drug effects | Male | Ventral Tegmental Area - cytology | Extracellular Signal-Regulated MAP Kinases - metabolism | Neuronal Plasticity - physiology | Conditioning, Operant - drug effects | Piperidines - pharmacology | Pyrazoles - pharmacology | Animals, Newborn | Synapses - drug effects | Ventral Tegmental Area - drug effects | Dopamine Uptake Inhibitors - pharmacology | Enzyme Inhibitors - pharmacology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Calcium Channel Blockers - pharmacology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Naphthalenes - pharmacology | Cocaine - pharmacology | Patch-Clamp Techniques | Ventral Tegmental Area - enzymology | Animals | Analysis of Variance | Signal Transduction - drug effects | Benzoxazines - pharmacology | Picrotoxin - pharmacology | Signal Transduction - physiology | Reward | In Vitro Techniques
TRANSDUCTION CASCADE | ACTIVATED PROTEIN-KINASE | ENDOCANNABINOID RELEASE | MAP KINASE | GABAERGIC SYNAPSES | LONG-TERM DEPRESSION | MIDBRAIN DOPAMINE NEURONS | BEHAVIORAL SENSITIZATION | NEUROSCIENCES | NUCLEUS-ACCUMBENS | CB1 RECEPTORS | Electric Stimulation | Neuronal Plasticity - drug effects | Male | Ventral Tegmental Area - cytology | Extracellular Signal-Regulated MAP Kinases - metabolism | Neuronal Plasticity - physiology | Conditioning, Operant - drug effects | Piperidines - pharmacology | Pyrazoles - pharmacology | Animals, Newborn | Synapses - drug effects | Ventral Tegmental Area - drug effects | Dopamine Uptake Inhibitors - pharmacology | Enzyme Inhibitors - pharmacology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Calcium Channel Blockers - pharmacology | Rats, Sprague-Dawley | GABA Antagonists - pharmacology | Naphthalenes - pharmacology | Cocaine - pharmacology | Patch-Clamp Techniques | Ventral Tegmental Area - enzymology | Animals | Analysis of Variance | Signal Transduction - drug effects | Benzoxazines - pharmacology | Picrotoxin - pharmacology | Signal Transduction - physiology | Reward | In Vitro Techniques
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Loading RightsNeuron, ISSN 0896-6273, 2008, Volume 58, Issue 5, pp. 775 - 788
The cerebellum controls complex, coordinated, and rapid movements, a function requiring precise timing abilities. However, the network mechanisms that underlie...
SYSNEURO | MOLNEURO | SIGNALING | CANNABINOID RECEPTOR | INHIBITION | CORTICAL-NEURONS | CORTEX | CLIMBING FIBERS | CENTRAL-NERVOUS-SYSTEM | SYNAPTIC CURRENTS | OLIVOCEREBELLAR SYSTEM | OSCILLATIONS | INTERNEURON NETWORKS | NEUROSCIENCES | Anesthesia - methods | Electric Stimulation | Excitatory Postsynaptic Potentials - radiation effects | Rats, Wistar | Male | Excitatory Postsynaptic Potentials - drug effects | Biological Clocks - drug effects | Purkinje Cells - physiology | Excitatory Postsynaptic Potentials - physiology | Quinoxalines - pharmacology | Piperidines - pharmacology | Action Potentials - drug effects | Pyrazoles - pharmacology | Benzodiazepines - pharmacology | Inhibitory Postsynaptic Potentials - physiology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Reaction Time - physiology | Cannabinoids - pharmacology | GABA Antagonists - pharmacology | Naphthalenes - pharmacology | Action Potentials - physiology | Animals | Biological Clocks - physiology | Benzoxazines - pharmacology | Cerebellum - cytology | Picrotoxin - pharmacology | Models, Neurological | Dose-Response Relationship, Radiation | Inhibitory Postsynaptic Potentials - drug effects | Brain | Analysis | Confidence intervals | Reptiles & amphibians | Experiments | Index Medicus
SYSNEURO | MOLNEURO | SIGNALING | CANNABINOID RECEPTOR | INHIBITION | CORTICAL-NEURONS | CORTEX | CLIMBING FIBERS | CENTRAL-NERVOUS-SYSTEM | SYNAPTIC CURRENTS | OLIVOCEREBELLAR SYSTEM | OSCILLATIONS | INTERNEURON NETWORKS | NEUROSCIENCES | Anesthesia - methods | Electric Stimulation | Excitatory Postsynaptic Potentials - radiation effects | Rats, Wistar | Male | Excitatory Postsynaptic Potentials - drug effects | Biological Clocks - drug effects | Purkinje Cells - physiology | Excitatory Postsynaptic Potentials - physiology | Quinoxalines - pharmacology | Piperidines - pharmacology | Action Potentials - drug effects | Pyrazoles - pharmacology | Benzodiazepines - pharmacology | Inhibitory Postsynaptic Potentials - physiology | Morpholines - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Reaction Time - physiology | Cannabinoids - pharmacology | GABA Antagonists - pharmacology | Naphthalenes - pharmacology | Action Potentials - physiology | Animals | Biological Clocks - physiology | Benzoxazines - pharmacology | Cerebellum - cytology | Picrotoxin - pharmacology | Models, Neurological | Dose-Response Relationship, Radiation | Inhibitory Postsynaptic Potentials - drug effects | Brain | Analysis | Confidence intervals | Reptiles & amphibians | Experiments | Index Medicus
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 04/2013, Volume 33, Issue 16, pp. 6990 - 7002
The impact of spontaneous neurotransmission on neuronal plasticity remains poorly understood. Here, we show that acute suppression of spontaneous NMDA...
LONG-TERM | DEPRESSION | TRANSMISSION | ACID | INDUCTION | RELEASE | RECEPTORS | GLUR2 | NEUROSCIENCES | DENDRITIC PROTEIN-SYNTHESIS | KETAMINE | Electric Stimulation | Locomotion - genetics | Synaptic Transmission - physiology | Evoked Potentials - physiology | Excitatory Postsynaptic Potentials - drug effects | Brain-Derived Neurotrophic Factor - deficiency | Elongation Factor 2 Kinase - deficiency | Exploratory Behavior - physiology | Neural Inhibition - physiology | Neuronal Plasticity - physiology | Time Factors | Exploratory Behavior - drug effects | Tetrodotoxin - pharmacology | Excitatory Postsynaptic Potentials - genetics | Receptors, AMPA - metabolism | Inhibition (Psychology) | Locomotion - drug effects | Animals, Newborn | Gene Expression Regulation - genetics | Synapses - physiology | Enzyme Inhibitors - pharmacology | Rats | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Hippocampus - cytology | Rats, Sprague-Dawley | Feeding Behavior - physiology | Feeding Behavior - drug effects | GABA Antagonists - pharmacology | Mice, Knockout | Gene Expression Regulation - drug effects | Swimming - physiology | Patch-Clamp Techniques | Animals | Evoked Potentials - genetics | Analysis of Variance | Picrotoxin - pharmacology | Glutamic Acid - metabolism | Mice | Hippocampus - physiology | In Vitro Techniques | Ketamine - pharmacology | Neural Inhibition - drug effects
LONG-TERM | DEPRESSION | TRANSMISSION | ACID | INDUCTION | RELEASE | RECEPTORS | GLUR2 | NEUROSCIENCES | DENDRITIC PROTEIN-SYNTHESIS | KETAMINE | Electric Stimulation | Locomotion - genetics | Synaptic Transmission - physiology | Evoked Potentials - physiology | Excitatory Postsynaptic Potentials - drug effects | Brain-Derived Neurotrophic Factor - deficiency | Elongation Factor 2 Kinase - deficiency | Exploratory Behavior - physiology | Neural Inhibition - physiology | Neuronal Plasticity - physiology | Time Factors | Exploratory Behavior - drug effects | Tetrodotoxin - pharmacology | Excitatory Postsynaptic Potentials - genetics | Receptors, AMPA - metabolism | Inhibition (Psychology) | Locomotion - drug effects | Animals, Newborn | Gene Expression Regulation - genetics | Synapses - physiology | Enzyme Inhibitors - pharmacology | Rats | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Hippocampus - cytology | Rats, Sprague-Dawley | Feeding Behavior - physiology | Feeding Behavior - drug effects | GABA Antagonists - pharmacology | Mice, Knockout | Gene Expression Regulation - drug effects | Swimming - physiology | Patch-Clamp Techniques | Animals | Evoked Potentials - genetics | Analysis of Variance | Picrotoxin - pharmacology | Glutamic Acid - metabolism | Mice | Hippocampus - physiology | In Vitro Techniques | Ketamine - pharmacology | Neural Inhibition - drug effects
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 05/2013, Volume 33, Issue 22, pp. 9394 - 9401
The gonadotropin-releasing hormone (GnRH) neurons are the key cells regulating fertility in all mammalian species. The scattered distribution of these neurons...
Muscimol - pharmacology | Pentobarbital - pharmacology | Gonadotropin-Releasing Hormone - physiology | Male | Neurons - physiology | Receptors, GABA-A - drug effects | Female | Pharynx - physiology | Tetrodotoxin - pharmacology | Neurons - drug effects | Electrodes, Implanted | Excitatory Amino Acid Agonists - pharmacology | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Signal Transduction - drug effects | GABA Agonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Picrotoxin - pharmacology | Receptors, GABA-A - physiology | Signal Transduction - physiology | Kisspeptins - pharmacology | Mice | Pharynx - innervation | Electrophysiological Phenomena - drug effects
Muscimol - pharmacology | Pentobarbital - pharmacology | Gonadotropin-Releasing Hormone - physiology | Male | Neurons - physiology | Receptors, GABA-A - drug effects | Female | Pharynx - physiology | Tetrodotoxin - pharmacology | Neurons - drug effects | Electrodes, Implanted | Excitatory Amino Acid Agonists - pharmacology | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Signal Transduction - drug effects | GABA Agonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - pharmacology | Picrotoxin - pharmacology | Receptors, GABA-A - physiology | Signal Transduction - physiology | Kisspeptins - pharmacology | Mice | Pharynx - innervation | Electrophysiological Phenomena - drug effects
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 10/2009, Volume 29, Issue 42, pp. 13344 - 13352
Synaptic transmission mediated by G-protein coupled receptors (GPCR) is not generally thought to be point-to-point. To determine the extent over which dopamine...
RECTIFYING POTASSIUM CURRENT | CARBON-FIBER MICROELECTRODES | SUBSTANTIA-NIGRA NEURONS | SYNAPTIC CLEFT | VESICULAR MONOAMINE TRANSPORTER-2 | ULTRASTRUCTURAL-LOCALIZATION | CHANNEL ACTIVATION | HIPPOCAMPAL CA3 NEURONS | GABA(B) RECEPTORS | BETA-GAMMA-SUBUNITS | NEUROSCIENCES | Temperature | Male | Ventral Tegmental Area - cytology | G Protein-Coupled Inwardly-Rectifying Potassium Channels - physiology | Ventral Tegmental Area - physiology | Rhodamines - metabolism | Patch-Clamp Techniques - methods | Quinoxalines - pharmacology | Time Factors | Egtazic Acid - analogs & derivatives | Neurons - physiology | Statistics, Nonparametric | Female | Mice, Inbred DBA | Neurons - drug effects | Electric Stimulation - methods | Dopamine - metabolism | Dopamine Agonists - pharmacology | Dopamine - pharmacology | Inhibitory Postsynaptic Potentials - physiology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Chelating Agents - pharmacology | GABA Antagonists - pharmacology | Animals | Egtazic Acid - pharmacology | Signal Transduction - drug effects | Phosphinic Acids - pharmacology | Picrotoxin - pharmacology | Signal Transduction - physiology | Mice | Quinpirole - pharmacology | Dizocilpine Maleate - pharmacology | Electrochemistry - methods | In Vitro Techniques | Propanolamines - pharmacology | Inhibitory Postsynaptic Potentials - drug effects
RECTIFYING POTASSIUM CURRENT | CARBON-FIBER MICROELECTRODES | SUBSTANTIA-NIGRA NEURONS | SYNAPTIC CLEFT | VESICULAR MONOAMINE TRANSPORTER-2 | ULTRASTRUCTURAL-LOCALIZATION | CHANNEL ACTIVATION | HIPPOCAMPAL CA3 NEURONS | GABA(B) RECEPTORS | BETA-GAMMA-SUBUNITS | NEUROSCIENCES | Temperature | Male | Ventral Tegmental Area - cytology | G Protein-Coupled Inwardly-Rectifying Potassium Channels - physiology | Ventral Tegmental Area - physiology | Rhodamines - metabolism | Patch-Clamp Techniques - methods | Quinoxalines - pharmacology | Time Factors | Egtazic Acid - analogs & derivatives | Neurons - physiology | Statistics, Nonparametric | Female | Mice, Inbred DBA | Neurons - drug effects | Electric Stimulation - methods | Dopamine - metabolism | Dopamine Agonists - pharmacology | Dopamine - pharmacology | Inhibitory Postsynaptic Potentials - physiology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Chelating Agents - pharmacology | GABA Antagonists - pharmacology | Animals | Egtazic Acid - pharmacology | Signal Transduction - drug effects | Phosphinic Acids - pharmacology | Picrotoxin - pharmacology | Signal Transduction - physiology | Mice | Quinpirole - pharmacology | Dizocilpine Maleate - pharmacology | Electrochemistry - methods | In Vitro Techniques | Propanolamines - pharmacology | Inhibitory Postsynaptic Potentials - drug effects
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 12/2001, Volume 21, Issue 24, pp. 9856 - 9866
We examined the in vivo effects of the hallucinogen 4-iodo-2,5-dimethoxyamphetamine (DOI). DOI suppressed the firing rate of 7 of 12 dorsal raphe (DR)...
AMPA | receptors | 5-hydroxytryptamine | Glutamate | Hallucinogens | mGluR | Medial prefrontal cortex | Microdialysis | Dorsal raphe nucleus | GABA | NMDA | Thalamus | Single-unit recordings | 5-HT | DOI | medial prefrontal cortex | V PYRAMIDAL CELLS | FREELY-MOVING RATS | 5-HT1A receptors | CELLULAR-LOCALIZATION | glutamate | EXTRACELLULAR 5-HYDROXYTRYPTAMINE | thalamus | single-unit recordings | 5-HT2A receptors | FRONTAL-CORTEX | hallucinogens | NEUROSCIENCES | dorsal raphe nucleus | microdialysis | MIDBRAIN RAPHE | IN-VIVO | ANTIPSYCHOTIC-DRUGS | PRIMATE CEREBRAL-CORTEX | Rats, Wistar | Amphetamines - pharmacology | Receptors, Serotonin - drug effects | Male | Raphe Nuclei - metabolism | Serotonin Receptor Agonists - pharmacology | Dose-Response Relationship, Drug | Fluorobenzenes - pharmacology | Prefrontal Cortex - drug effects | Piperidines - pharmacology | Female | Neurons - metabolism | Tetrodotoxin - pharmacology | Neurons - drug effects | Hallucinogens - pharmacology | Picrotoxin - analogs & derivatives | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - metabolism | Serotonin Antagonists - pharmacology | Receptor, Serotonin, 5-HT2A | Receptors, Serotonin - metabolism | GABA Antagonists - pharmacology | Animals | Raphe Nuclei - drug effects | Receptors, Serotonin, 5-HT1 | Serotonin - metabolism | Prefrontal Cortex - metabolism | Picrotoxin - pharmacology | Glutamic Acid - metabolism | Mice | Mice, Inbred BALB C
AMPA | receptors | 5-hydroxytryptamine | Glutamate | Hallucinogens | mGluR | Medial prefrontal cortex | Microdialysis | Dorsal raphe nucleus | GABA | NMDA | Thalamus | Single-unit recordings | 5-HT | DOI | medial prefrontal cortex | V PYRAMIDAL CELLS | FREELY-MOVING RATS | 5-HT1A receptors | CELLULAR-LOCALIZATION | glutamate | EXTRACELLULAR 5-HYDROXYTRYPTAMINE | thalamus | single-unit recordings | 5-HT2A receptors | FRONTAL-CORTEX | hallucinogens | NEUROSCIENCES | dorsal raphe nucleus | microdialysis | MIDBRAIN RAPHE | IN-VIVO | ANTIPSYCHOTIC-DRUGS | PRIMATE CEREBRAL-CORTEX | Rats, Wistar | Amphetamines - pharmacology | Receptors, Serotonin - drug effects | Male | Raphe Nuclei - metabolism | Serotonin Receptor Agonists - pharmacology | Dose-Response Relationship, Drug | Fluorobenzenes - pharmacology | Prefrontal Cortex - drug effects | Piperidines - pharmacology | Female | Neurons - metabolism | Tetrodotoxin - pharmacology | Neurons - drug effects | Hallucinogens - pharmacology | Picrotoxin - analogs & derivatives | Rats | Excitatory Amino Acid Agonists - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid - metabolism | Serotonin Antagonists - pharmacology | Receptor, Serotonin, 5-HT2A | Receptors, Serotonin - metabolism | GABA Antagonists - pharmacology | Animals | Raphe Nuclei - drug effects | Receptors, Serotonin, 5-HT1 | Serotonin - metabolism | Prefrontal Cortex - metabolism | Picrotoxin - pharmacology | Glutamic Acid - metabolism | Mice | Mice, Inbred BALB C
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Loading RightsNeuroscience, ISSN 0306-4522, 2008, Volume 151, Issue 2, pp. 386 - 395
Abstract Parkinson’s disease (PD) is associated with enhanced synchronization of neuronal network activity in the beta (15–30 Hz) frequency band across several...
Neurology | layer 5 | basal ganglia | interneuron network | deep brain stimulation | HIPPOCAMPAL SLICES | SUBTHALAMIC NUCLEUS STIMULATION | AWAKE BEHAVING MONKEYS | 40 HZ | GLOBUS-PALLIDUS | NEUROSCIENCES | CORTICOSPINAL NEURONS | NETWORK OSCILLATIONS | SOMATOSENSORY CORTEX | RECEPTOR ACTIVATION | PARKINSONS-DISEASE | Electric Stimulation | Rats, Wistar | Muscarinic Agonists - pharmacology | Pentobarbital - pharmacology | Male | Motor Cortex - drug effects | Fourier Analysis | GABA Modulators - pharmacology | Neurons - physiology | Receptors, GABA-A - drug effects | Neurons - drug effects | Extracellular Space - physiology | Motor Cortex - physiology | Kainic Acid - pharmacology | Rats | Excitatory Amino Acid Agonists - pharmacology | Beta Rhythm - drug effects | GABA Antagonists - pharmacology | Carbachol - pharmacology | Animals | Electroencephalography - drug effects | GABA Agonists - pharmacology | Picrotoxin - pharmacology | Pyridines - pharmacology | In Vitro Techniques | Motor Cortex - cytology | GABA | Neurosciences | Glutamate | Neurons
Neurology | layer 5 | basal ganglia | interneuron network | deep brain stimulation | HIPPOCAMPAL SLICES | SUBTHALAMIC NUCLEUS STIMULATION | AWAKE BEHAVING MONKEYS | 40 HZ | GLOBUS-PALLIDUS | NEUROSCIENCES | CORTICOSPINAL NEURONS | NETWORK OSCILLATIONS | SOMATOSENSORY CORTEX | RECEPTOR ACTIVATION | PARKINSONS-DISEASE | Electric Stimulation | Rats, Wistar | Muscarinic Agonists - pharmacology | Pentobarbital - pharmacology | Male | Motor Cortex - drug effects | Fourier Analysis | GABA Modulators - pharmacology | Neurons - physiology | Receptors, GABA-A - drug effects | Neurons - drug effects | Extracellular Space - physiology | Motor Cortex - physiology | Kainic Acid - pharmacology | Rats | Excitatory Amino Acid Agonists - pharmacology | Beta Rhythm - drug effects | GABA Antagonists - pharmacology | Carbachol - pharmacology | Animals | Electroencephalography - drug effects | GABA Agonists - pharmacology | Picrotoxin - pharmacology | Pyridines - pharmacology | In Vitro Techniques | Motor Cortex - cytology | GABA | Neurosciences | Glutamate | Neurons
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Loading RightsNature Neuroscience, ISSN 1097-6256, 11/2012, Volume 15, Issue 11, pp. 1524 - 1530
The vast diversity of GABAergic interneurons is believed to endow hippocampal microcircuits with the required flexibility for memory encoding and retrieval....
GAMMA | CELLS | FEEDFORWARD | ACETYLCHOLINE | FAST INHIBITION | LONG-TERM POTENTIATION | THETA-RHYTHM | MODEL | STRATUM-ORIENS | NEUROSCIENCES | GABAERGIC NEURONS | Green Fluorescent Proteins | Interneurons - physiology | CA1 Region, Hippocampal - cytology | Electric Stimulation | gamma-Aminobutyric Acid - metabolism | RNA, Messenger - metabolism | Excitatory Postsynaptic Potentials - drug effects | Nerve Net - physiology | Nicotine - pharmacology | Neurons - classification | Long-Term Potentiation - drug effects | Neurons - physiology | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Excitatory Postsynaptic Potentials - genetics | Nicotinic Agonists - pharmacology | Plant Lectins - genetics | Animals, Newborn | CA3 Region, Hippocampal - cytology | Mice, Inbred C57BL | Valine - analogs & derivatives | Interneurons - drug effects | Mice, Transgenic | Excitatory Amino Acid Antagonists - pharmacology | Long-Term Potentiation - genetics | Voltage-Sensitive Dye Imaging | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Picrotoxin - pharmacology | Luminescent Proteins - genetics | Mice | Valine - pharmacology | In Vitro Techniques | Plant Lectins - metabolism | Receptors, Nicotinic - genetics | Luminescent Proteins - metabolism | Neural circuitry | Neurons | GABA | Physiological aspects | Brain cells | Hippocampus (Brain) | Research | Properties | Basic Medicine | Medical and Health Sciences | Medicin och hälsovetenskap | Medicinska och farmaceutiska grundvetenskaper
GAMMA | CELLS | FEEDFORWARD | ACETYLCHOLINE | FAST INHIBITION | LONG-TERM POTENTIATION | THETA-RHYTHM | MODEL | STRATUM-ORIENS | NEUROSCIENCES | GABAERGIC NEURONS | Green Fluorescent Proteins | Interneurons - physiology | CA1 Region, Hippocampal - cytology | Electric Stimulation | gamma-Aminobutyric Acid - metabolism | RNA, Messenger - metabolism | Excitatory Postsynaptic Potentials - drug effects | Nerve Net - physiology | Nicotine - pharmacology | Neurons - classification | Long-Term Potentiation - drug effects | Neurons - physiology | 6-Cyano-7-nitroquinoxaline-2,3-dione - pharmacology | Excitatory Postsynaptic Potentials - genetics | Nicotinic Agonists - pharmacology | Plant Lectins - genetics | Animals, Newborn | CA3 Region, Hippocampal - cytology | Mice, Inbred C57BL | Valine - analogs & derivatives | Interneurons - drug effects | Mice, Transgenic | Excitatory Amino Acid Antagonists - pharmacology | Long-Term Potentiation - genetics | Voltage-Sensitive Dye Imaging | GABA Antagonists - pharmacology | Patch-Clamp Techniques | Animals | Picrotoxin - pharmacology | Luminescent Proteins - genetics | Mice | Valine - pharmacology | In Vitro Techniques | Plant Lectins - metabolism | Receptors, Nicotinic - genetics | Luminescent Proteins - metabolism | Neural circuitry | Neurons | GABA | Physiological aspects | Brain cells | Hippocampus (Brain) | Research | Properties | Basic Medicine | Medical and Health Sciences | Medicin och hälsovetenskap | Medicinska och farmaceutiska grundvetenskaper
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