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Neuropsychopharmacology (New York, N.Y.), ISSN 1740-634X, 2010, Volume 35, Issue 8, pp. 1734 - 1742
Journal Article
Molecular psychiatry, ISSN 1476-5578, 2011, Volume 17, Issue 5, pp. 537 - 548
Synchronous recruitment of fast-spiking (FS) parvalbumin (PV) interneurons generates gamma oscillations, rhythms that emerge during performance of cognitive... 
NMDAR | oscillations | parvalbumin | gamma | optogenetics | interneurons | PSYCHIATRY | BIOCHEMISTRY & MOLECULAR BIOLOGY | SCHIZOPHRENIA | MODEL | SYNAPTIC PLASTICITY | NEUROSCIENCES | PREFRONTAL CORTEX | DENDRITIC SPINES | FREQUENCY OSCILLATIONS | SELECTIVE IMPAIRMENT | NEURONS | MICE | WORKING-MEMORY | Sensory Gating - drug effects | Interneurons - physiology | Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors | Stereotyped Behavior - drug effects | Parvalbumins - metabolism | GABAergic Neurons - physiology | Male | Memory, Short-Term - physiology | Excitatory Postsynaptic Potentials - drug effects | Receptors, N-Methyl-D-Aspartate - genetics | Excitatory Postsynaptic Potentials - physiology | Brain Waves - drug effects | GABAergic Neurons - metabolism | Stereotyped Behavior - physiology | Brain Waves - physiology | Maze Learning - physiology | Conditioning (Psychology) - drug effects | Conditioning (Psychology) - physiology | Interneurons - drug effects | Memory, Short-Term - drug effects | Mice, Transgenic | Sensory Gating - physiology | Maze Learning - drug effects | Receptors, N-Methyl-D-Aspartate - physiology | Association Learning - physiology | Association Learning - drug effects | GABA Antagonists - pharmacology | Animals | Photic Stimulation - methods | Picrotoxin - pharmacology | Mice | Methyl aspartate | Interneurons | Neural networks | Albumin | Physiological aspects | Research | Health aspects | Glutamic acid receptors (ionotropic) | Cognitive ability | Oscillations | Associative learning | N-Methyl-D-aspartic acid receptors | Optics | Antagonists | Glutamic acid receptors | Rhythms | Parvalbumin | Habituation | Information processing | Genetics | Short term memory | Stereotyped behavior | Neurotransmission | Original
Journal Article
PloS one, ISSN 1932-6203, 2012, Volume 7, Issue 4, p. e35024
Rat pup odor preference learning follows pairing of bulbar beta-adrenoceptor activation with olfactory input. We hypothesize that NMDA receptor... 
RESPONSES | ACTIVATION | MEMORY | VISUAL-CORTEX | SYNAPSES | MULTIDISCIPLINARY SCIENCES | MITRAL CELLS | YOUNG-RATS | POSTNATAL-DEVELOPMENT | LONG-TERM POTENTIATION | SYNAPTIC PLASTICITY | Memory - drug effects | Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors | Learning - drug effects | Male | Excitatory Postsynaptic Potentials - drug effects | Odorants | Olfactory Nerve - drug effects | Excitatory Postsynaptic Potentials - physiology | Long-Term Potentiation - drug effects | GABA-A Receptor Agonists - pharmacology | Olfactory Perception - physiology | Long-Term Potentiation - physiology | Female | GABA-A Receptor Antagonists - pharmacology | Olfactory Nerve - physiology | Animals, Newborn | Olfactory Perception - drug effects | Receptors, AMPA - physiology | Down-Regulation | Rats | Rats, Sprague-Dawley | Receptors, N-Methyl-D-Aspartate - physiology | Learning - physiology | Animals | Isoproterenol - pharmacology | Olfactory Bulb - physiology | Olfactory Bulb - drug effects | Memory - physiology | Animal experimentation | Potentiation | Neurosciences | Calcium | γ-Aminobutyric acid A receptors | Glutamic acid receptors (ionotropic) | Memory | Activation | α-Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors | Experiments | Odorant receptors | Training | Olfactory stimuli | Learning | Infusion | Receptors | Odors | α-Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid | Rodents | Enzymes | Adenosine | Cyclic AMP | N-Methyl-D-aspartic acid receptors | Smell | Excitatory postsynaptic potentials | Animal behavior | Olfactory nerve | Sensory stimulation | Olfactory bulb | Adrenergic receptors | Mitral cells | alpha -Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors | Neonates | Glutamic acid receptors | alpha -Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid | gamma -Aminobutyric acid A receptors | Olfactory preferences | Odor
Journal Article
Nature Neuroscience, ISSN 1097-6256, 10/2003, Volume 6, Issue 10, pp. 1079 - 1085
We have determined whether seizures generate an epileptogenic focus in distal structures using an in vitro preparation composed of three independent chambers... 
CA3 HIPPOCAMPAL-NEURONS | TEMPORAL-LOBE EPILEPSY | NMDA RECEPTORS | GABAERGIC INHIBITION | GABA | EXCITATORY ACTIONS | KAINIC ACID | ANTAGONISTS | NEUROSCIENCES | DEVELOPING BRAIN | NEONATAL SEIZURES | Neural Pathways - drug effects | Synaptic Transmission - physiology | Chloride Channels - drug effects | Rats, Wistar | gamma-Aminobutyric Acid - metabolism | Male | Epilepsy - physiopathology | Hippocampus - drug effects | Excitatory Postsynaptic Potentials - drug effects | Excitatory Postsynaptic Potentials - physiology | Functional Laterality - drug effects | Synaptic Transmission - drug effects | Functional Laterality - physiology | Neural Pathways - physiopathology | Disease Models, Animal | Animals, Newborn | Membrane Potentials - drug effects | Receptors, N-Methyl-D-Aspartate - drug effects | Presynaptic Terminals - drug effects | Kainic Acid - pharmacology | Rats | Excitatory Amino Acid Antagonists - pharmacology | Presynaptic Terminals - physiology | Membrane Potentials - physiology | Receptors, N-Methyl-D-Aspartate - physiology | Animals | Epilepsy - chemically induced | Glutamic Acid - metabolism | Hippocampus - physiopathology | Chloride Channels - physiology | Neurons | Epilepsy | Physiological aspects | Parahippocampal region | Research | Structure | Risk factors | gamma-Aminobutyric Acid | Receptors, N-Methyl-D-Aspartate | Functional Laterality | Cellular Biology | Neural Pathways | Synaptic Transmission | Kainic Acid | Glutamic Acid | Life Sciences | Membrane Potentials | Chloride Channels | Excitatory Postsynaptic Potentials | Presynaptic Terminals | Excitatory Amino Acid Antagonists | Hippocampus
Journal Article
Journal of Neuroscience, ISSN 0270-6474, 09/2008, Volume 28, Issue 38, pp. 9575 - 9584
.... We assessed the levels of DA and its metabolites (DOPAC, homovanillic acid), GABA, glutamate (Glu), serotonin (5-HT) and its metabolite... 
Primate | Microdialysis | Parkinson's disease | MPTP | Serotonin | Recovery | MOTOR ASYMPTOMATIC MONKEYS | FREELY MOVING RATS | NONHUMAN-PRIMATES | recovery | DOPAMINE TURNOVER | SUBSTANTIA-NIGRA | NEUROSCIENCES | primate | serotonin | CHRONIC EXPOSURE | microdialysis | EXTRACELLULAR LEVELS | STRIATAL GLUTAMATE | POSTMORTEM BRAINS | PARKINSONS-DISEASE | Extracellular Fluid - chemistry | Parkinsonian Disorders - physiopathology | 3,4-Dihydroxyphenylacetic Acid - metabolism | gamma-Aminobutyric Acid - metabolism | Neurotransmitter Agents - metabolism | Cercopithecus aethiops | Behavior, Animal - physiology | Male | Hydroxyindoleacetic Acid - metabolism | Corpus Striatum - metabolism | Corpus Striatum - chemistry | Down-Regulation - physiology | Parkinsonian Disorders - metabolism | Extracellular Fluid - metabolism | Animals | Homovanillic Acid - metabolism | Movement - physiology | Serotonin - metabolism | Up-Regulation - physiology | Recovery of Function - physiology | Glutamic Acid - metabolism | Dopamine - metabolism | Disease Models, Animal | Parkinsonian Disorders | gamma-Aminobutyric Acid | Up-Regulation | Movement | Dopamine | Homovanillic Acid | Down-Regulation | Recovery of Function | Behavior, Animal | Glutamic Acid | Neurotransmitter Agents | Extracellular Fluid | 3,4-Dihydroxyphenylacetic Acid | Corpus Striatum | Hydroxyindoleacetic Acid
Journal Article
Trends in neurosciences (Regular ed.), ISSN 0166-2236, 2012, Volume 35, Issue 10, pp. 607 - 618
The Ca2+ /Calmodulin(CaM)-dependent protein kinase II (CaMKII) is activated by Ca2+ /CaM, but becomes partially autonomous (Ca2+ -independent) upon... 
Neurology | autonomy | CaMKII | learning and memory | NMDA receptor | long-term depression | long-term potentiation | Learning and memory | Autonomy | Long-term depression | Long-term potentiation | long-term depression.learning and memory | HIPPOCAMPAL SYNAPTIC PLASTICITY | CALCIUM-INDEPENDENT ACTIVATION | D-ASPARTATE RECEPTOR | NEUROSCIENCES | ALPHA-CAMKII | GLUTAMATE RECEPTORS | POSTSYNAPTIC DENSITY | PROTEIN-KINASE-II | SINGLE DENDRITIC SPINES | Long-Term Synaptic Depression - physiology | Phosphorylation | Synaptic Transmission - physiology | Synapses - physiology | Humans | Receptors, N-Methyl-D-Aspartate - metabolism | Gene Expression Regulation, Enzymologic - physiology | Receptors, N-Methyl-D-Aspartate - physiology | Hippocampus - metabolism | Neural Inhibition - physiology | Animals | Synapses - metabolism | Calcium-Calmodulin-Dependent Protein Kinase Type 2 - physiology | Isoenzymes - metabolism | Long-Term Potentiation - physiology | Protein Conformation | Hippocampus - physiology | Calcium-Calmodulin-Dependent Protein Kinase Type 2 - metabolism | Memory - physiology | Methyl aspartate | Depression, Mental | Calmodulin | Reviews | Calcium | Synaptic strength | Glutamic acid receptors (ionotropic) | Memory | Information processing | N-Methyl-D-aspartic acid receptors | Glutamic acid receptors | Ca super(2+)/calmodulin-dependent protein kinase II | synaptic depression | Long-term Potentiation | Learning and Memory | Long-term Depression
Journal Article
Nature neuroscience, ISSN 1097-6256, 06/2017, Volume 20, Issue 6, pp. 784 - 792
The function of cortical GABAergic interneurons is largely determined by their integration into specific neural circuits, but the mechanisms controlling the... 
NERVOUS-SYSTEM | ENTORHINAL CORTEX | INHIBITION | RAT | GABA RELEASE | GABAERGIC INTERNEURONS | KNOCKOUT MICE | NEUROSCIENCES | PREFRONTAL CORTEX | CEREBRAL-CORTEX | HIPPOCAMPAL INTERNEURONS | Interneurons - physiology | Amino Acid Transport Systems, Acidic - metabolism | GABAergic Neurons - physiology | Male | Neural Pathways - physiology | Cerebral Cortex - metabolism | Spatial Learning - physiology | Exploratory Behavior - physiology | Neural Inhibition - physiology | Cholecystokinin - metabolism | Pyramidal Cells - physiology | Receptor, ErbB-4 - physiology | CA1 Region, Hippocampal - metabolism | GABAergic Neurons - metabolism | Theta Rhythm - physiology | Cholecystokinin - physiology | CA1 Region, Hippocampal - physiology | Maze Learning - physiology | Spatial Memory - physiology | Mice, Transgenic | Place Cells - physiology | Animals | Interneurons - metabolism | Cholecystokinin - genetics | Receptor, ErbB-4 - biosynthesis | Cerebral Cortex - physiology | Mice | Receptor, ErbB-4 - genetics | Prepulse Inhibition - physiology | Locomotion - physiology | Spatial analysis (Statistics) | Cholecystokinin | Research | Tyrosine | Integration | Interneurons | Circuits | Exploratory behavior | Spatial discrimination learning | Cortex | Theta rhythms | ErbB-2 protein | Wiring | Coding | Pyramidal cells | Neural networks | Rodents | Protein-tyrosine kinase receptors | Glutamic acid transporter | Disruption | Protein-tyrosine kinase | Transporter | Synapses | Spatial memory
Journal Article
Proceedings of the National Academy of Sciences - PNAS, ISSN 1091-6490, 2013, Volume 110, Issue 25, pp. 10294 - 10299
Journal Article
Journal of Neurophysiology, ISSN 0022-3077, 01/2007, Volume 97, Issue 1, pp. 692 - 700
Early in development, cortical networks generate particular patterns of activity that participate in cortical development. The dominant pattern of electrical... 
HIPPOCAMPAL SLICES | PHYSIOLOGY | GLUTAMATE-RECEPTOR BLOCKADE | GABAERGIC INHIBITION | DEVELOPING NEOCORTEX | SOMATOSENSORY CORTEX | NEURAL ACTIVITY | EXCITATORY ACTIONS | NEUROSCIENCES | THALAMOCORTICAL SYNAPSES | CORTICAL CIRCUITS | GIANT DEPOLARIZING POTENTIALS | Synaptic Transmission - physiology | Rats, Wistar | Somatosensory Cortex - growth & development | gamma-Aminobutyric Acid - metabolism | Neuronal Plasticity - drug effects | Male | Nerve Net - drug effects | Biological Clocks - drug effects | Neural Inhibition - physiology | Neuronal Plasticity - physiology | Female | Synaptic Transmission - drug effects | Afferent Pathways - drug effects | Action Potentials - drug effects | Receptors, AMPA - metabolism | Animals, Newborn | Nerve Net - growth & development | Neurons, Afferent - drug effects | Afferent Pathways - growth & development | Trigeminal Nerve - growth & development | GABA-A Receptor Antagonists | Somatosensory Cortex - drug effects | Interneurons - drug effects | Rats | Excitatory Amino Acid Antagonists - pharmacology | Neurons, Afferent - physiology | GABA Antagonists - pharmacology | Action Potentials - physiology | Trigeminal Nerve - drug effects | Animals | Interneurons - metabolism | Biological Clocks - physiology | Vibrissae - physiology | Glutamic Acid - metabolism | Receptors, GABA-A - metabolism | Neural Inhibition - drug effects | Neural Inhibition | Interneurons | Receptors, GABA-A | Cellular Biology | Synaptic Transmission | Action Potentials | Life Sciences | Neurons, Afferent | Biological Clocks | Receptors, AMPA | Afferent Pathways | gamma-Aminobutyric Acid | Vibrissae | Somatosensory Cortex | Glutamic Acid | Neuronal Plasticity | Nerve Net | Trigeminal Nerve | Excitatory Amino Acid Antagonists | GABA Antagonists
Journal Article
Journal Article