about
A quantitative method to assess extrasynaptic NMDA receptor function in the protective effect of synaptic activity against neurotoxicityA transcription-dependent increase in miniature EPSC frequency accompanies late-phase plasticity in cultured hippocampal neurons.Requirement for nuclear calcium signaling in Drosophila long-term memory.Trace amines depress GABA B response in dopaminergic neurons by inhibiting G-betagamma-gated inwardly rectifying potassium channels.BDNF Reduces Toxic Extrasynaptic NMDA Receptor Signaling via Synaptic NMDA Receptors and Nuclear-Calcium-Induced Transcription of inhba/Activin A.The calmodulin-binding transcription activator CAMTA1 is required for long-term memory formation in mice.Muscarinic M1 receptors modulate endotoxemia-induced loss of synaptic plasticity.Recovery of NMDA receptor currents from MK-801 blockade is accelerated by Mg2+ and memantine under conditions of agonist exposureFunctional fusion of living systems with synthetic electrode interfaces.Networks of Cultured iPSC-Derived Neurons Reveal the Human Synaptic Activity-Regulated Adaptive Gene Program.Opposing electrophysiological actions of 5-HT on noncholinergic and cholinergic neurons in the rat ventral pallidum in vitro.Reciprocal Interaction of Dendrite Geometry and Nuclear Calcium-VEGFD Signaling Gates Memory Consolidation and Extinction.Synaptic activity induces dramatic changes in the geometry of the cell nucleus: interplay between nuclear structure, histone H3 phosphorylation, and nuclear calcium signaling.D-tubocurarine reduces GABA responses in rat substantia nigra dopamine neurons.Involvement of transient receptor potential-like channels in responses to mGluR-I activation in midbrain dopamine neurons.Transient receptor potential-like channels mediate metabotropic glutamate receptor EPSCs in rat dopamine neurones.Voltage-gated calcium channels mediate intracellular calcium increase in weaver dopaminergic neurons during stimulation of D2 and GABAB receptors.Microelectrode array recordings of cultured hippocampal networks reveal a simple model for transcription and protein synthesis-dependent plasticity.Depolarization promotes GAD 65-mediated GABA synthesis by a post-translational mechanism in neural stem cell-derived neurons.Analysis of stem cell lineage progression in the neonatal subventricular zone identifies EGFR+/NG2- cells as transit-amplifying precursors.Altered excitability of motor neurons in a transgenic mouse model of familial amyotrophic lateral sclerosis.Electrophysiological properties of anatomically identified ventral pallidal neurons in rat brain slices.Calcium responses to synaptically activated bursts of action potentials and their synapse-independent replay in cultured networks of hippocampal neurons.GABAA receptor signaling induces osmotic swelling and cell cycle activation of neonatal prominin+ precursors.Diffusion and not active transport underlies and limits ERK1/2 synapse-to-nucleus signaling in hippocampal neuronsOne nuclear calcium transient induced by a single burst of action potentials represents the minimum signal strength in activity-dependent transcription in hippocampal neuronsc-Fos marking of identified midbrain neurons coactive after nicotine administration in-vivoA novel method using ambient glutamate for the electrophysiological quantification of extrasynaptic NMDA receptor function in acute brain slicesCholinergic modulation of hippocampal activity during septic encephalopathy
P50
Q33316376-46C98E11-BCA9-44AC-B949-61282AED47C4Q33507438-D188E649-E301-4127-AF3B-772E797A2B36Q34343427-B62F9F21-AD70-4D00-9576-3DEA84303795Q34383682-54166366-DE2C-4A96-B60E-4DDFBEC3CFB6Q34489741-5AB90311-160B-4D7B-8390-E16C9C6F095AQ36021971-D84775C1-C627-4761-8F25-F25B2036CD5CQ36246899-DB92D9C6-58DE-4BB3-A4DC-68895108C35BQ37186205-17C7E0F5-18CB-4C28-8D92-960DD51FB949Q38781495-7E00DE6D-085A-4009-8802-B1066EB78157Q42196975-4BE144A9-C4F5-44A1-9511-FDF90B1EAA2CQ42457118-DC94C732-D0C8-49F0-83E0-0F1A91921AFDQ42511183-75A37269-A82D-4C8A-9909-C8CB402E4017Q43235347-407ECDAB-DF45-4292-A933-513EE070E598Q44257900-3A427ACE-EF64-4258-A31F-693073005CF4Q44658168-1ADA6838-705E-40B7-8355-DB28EC5A304CQ44728638-990AFDCA-3A44-4370-9D99-3CFCB7C20620Q44968971-64CA8481-A5A1-4A60-AA27-62BE1D284DF3Q45200695-446D5404-E576-4B1D-857C-868C01D12C64Q46812148-0056BBAD-FC5F-4B3A-A16D-587A8E762676Q47672808-66D414B3-3DB8-495E-B0B5-2EC5B650BB49Q47874345-5C41AC77-8F44-4BAD-A696-277069FD646FQ48155639-934CB6F4-970B-4040-849E-07E2E2DEFE82Q48188794-A9CC63A7-9EB7-4DC2-99A1-3071FDF8114DQ48249496-06559C76-89C8-4958-8389-F37CBADB7512Q80735533-56056821-3B7F-4938-9D46-49EDAC78DE32Q87627748-C8027FCC-6552-4834-A216-EDAAE922358BQ89059740-22AB5C8C-117D-4C19-A51D-4F60A955BA5DQ92250755-7C03FE2E-AA7F-4C33-B7E9-AD1EB41395B8Q93582128-600DD9CE-BC60-4E5F-9014-52FD02E62B80
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
C Peter Bengtson
@ast
C Peter Bengtson
@en
C Peter Bengtson
@es
C Peter Bengtson
@nl
C Peter Bengtson
@sl
type
label
C Peter Bengtson
@ast
C Peter Bengtson
@en
C Peter Bengtson
@es
C Peter Bengtson
@nl
C Peter Bengtson
@sl
prefLabel
C Peter Bengtson
@ast
C Peter Bengtson
@en
C Peter Bengtson
@es
C Peter Bengtson
@nl
C Peter Bengtson
@sl
P214
P106
P21
P214
P31
P496
0000-0002-8245-3323
P735
P7859
viaf-304937307