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Spatial learning and action planning in a prefrontal cortical network model4-Hz oscillations synchronize prefrontal-amygdala circuits during fear behavior.Selective blockade of endothelin-B receptors exacerbates ischemic brain damage in the rat.Sequential Reinstatement of Neocortical Activity during Slow Oscillations Depends on Cells' Global Activity.Replay of rule-learning related neural patterns in the prefrontal cortex during sleep.Selective suppression of hippocampal ripples impairs spatial memory.Plasticity of astroglial networks in olfactory glomeruli.Equivocal roles of tissue-type plasminogen activator in stroke-induced injury.Interaction Between Hippocampus and Cerebellum Crus I in Sequence-Based but not Place-Based Navigation.Oscillations in the prefrontal cortex: a gateway to memory and attention.The hippocampus: hub of brain network communication for memory.From necessity to sufficiency in memory research: when sleep helps to understand wake experiences.Arginine 260 of the amino-terminal domain of NR1 subunit is critical for tissue-type plasminogen activator-mediated enhancement of N-methyl-D-aspartate receptor signaling.Is tissue-type plasminogen activator a neuromodulator?Principal component analysis of ensemble recordings reveals cell assemblies at high temporal resolutionCoherent theta oscillations and reorganization of spike timing in the hippocampal- prefrontal network upon learning.2,7-Bis-(4-amidinobenzylidene)-cycloheptan-1-one dihydrochloride, tPA stop, prevents tPA-enhanced excitotoxicity both in vitro and in vivo.Toward safer thrombolytic agents in stroke: molecular requirements for NMDA receptor-mediated neurotoxicity.Oxygen glucose deprivation switches the transport of tPA across the blood-brain barrier from an LRP-dependent to an increased LRP-independent process.Tissue-type plasminogen activator crosses the intact blood-brain barrier by low-density lipoprotein receptor-related protein-mediated transcytosis.Explicit memory creation during sleep demonstrates a causal role of place cells in navigation.Taming the oscillatory zoo in the hippocampus and neo-cortex: a review of the commentary of Lockmann and Tort on Roy et al.Ageing and amyloid-beta peptide deposition contribute to an impaired brain tissue plasminogen activator activity by different mechanisms.Anti-NR1 N-terminal-domain vaccination unmasks the crucial action of tPA on NMDA-receptor-mediated toxicity and spatial memory.Matching gene expression with hypometabolism after cerebral ischemia in the nonhuman primate.Tissue-type plasminogen activator rescues neurones from serum deprivation-induced apoptosis through a mechanism independent of its proteolytic activity.Connexin 30 sets synaptic strength by controlling astroglial synapse invasion.Neural Ensembles and Local Field Potentials in the Hippocampal-Prefrontal Cortex System During Spatial Learning and Strategy Shifts in RatsTransforming Growth Factor-β in Brain Functions and DysfunctionsHarnessing olfactory bulb oscillations to perform fully brain-based sleep-scoring and real-time monitoring of anaesthesia depthValidating the theoretical bases of sleep reactivation during sharp-wave ripples and their association with emotional valence
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Q21145324-18B4F721-E52E-4CFA-A8B9-A3D10DF38381Q27311538-B22A8623-7A21-4F3C-B0FB-BDA5999E1E55Q31120381-EC75980C-7F73-4B20-8832-9CB9D8C37D01Q33586414-5E32BCE7-1C51-4D76-AAEF-6CD8DFBC96C0Q34984099-F22D2200-EFC0-488B-8D9F-E617F228BEC0Q35002533-83D3F2B3-A386-44A0-828C-C921EB20E0FCQ35546650-01A72C20-8CDF-4109-A4C0-6ED9D6C77063Q35704593-93CFCF9E-8262-45FE-9937-F141F85DCB83Q36951022-24D584AF-954B-41EA-A7AF-D98822173E58Q37856528-FB855A1B-EC9D-49B5-96FE-8104961CE724Q37893312-0D36C3F1-6168-4807-B4AD-D7B3FA56858DQ38588383-600BDA89-FE1C-451B-B813-E4056E50CF1EQ40511087-8B2CF392-31C2-47D6-A89B-1837E88B2896Q40567601-DA9CB0AF-9155-47DC-B9A7-6EBAA5F37CBDQ42426341-6A7F1C7C-A302-4553-92C1-F0F9DD3167D2Q42974034-1F8A56C0-AE8F-42FD-A5F4-42B460EDBEA2Q45141104-128ED694-85C4-49A8-A243-8D8EBA73D9A6Q46268137-C2366B78-7D76-4DC4-9214-89078F698824Q46427918-1DFC16A5-2D5B-4067-AD8A-57C9D0D3FA15Q46455334-A63206B0-E243-4221-A10F-25F4A85A2C5DQ47669761-97E9919C-0F03-4A3C-A767-A4CD257F340BQ47925187-EB554488-7659-4EDE-AEF7-7776B90E299DQ48137180-C464169E-F915-4172-B6F7-4D54B15CFF11Q48300446-5C975EE9-1B28-4455-9DE1-FCF9FB620A3CQ48474098-34FF81DB-CC68-41E4-92AA-619100F98D07Q48487420-B801ED3D-E66A-46FD-98ED-3537C71A7482Q50683771-86ED6CF0-0602-4073-A66D-475B828107D5Q57537870-6250ADC3-03ED-4F7F-ACD2-87179E894814Q57537872-4B42C083-1E1A-485E-8040-75274FEC3C44Q58587947-E3303F5B-23BD-4059-8916-873C2480414BQ92114258-E9E711AC-0816-4704-8C11-CBD9B59041E2
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Karim Benchenane
@ast
Karim Benchenane
@en
Karim Benchenane
@es
Karim Benchenane
@nl
Karim Benchenane
@sl
type
label
Karim Benchenane
@ast
Karim Benchenane
@en
Karim Benchenane
@es
Karim Benchenane
@nl
Karim Benchenane
@sl
prefLabel
Karim Benchenane
@ast
Karim Benchenane
@en
Karim Benchenane
@es
Karim Benchenane
@nl
Karim Benchenane
@sl
P1053
D-8023-2015
P106
P21
P31
P3829
P496
0000-0001-7118-0748