about
Endocannabinoid-mediated long-term plasticity requires cAMP/PKA signaling and RIM1alphaRIM1alpha phosphorylation at serine-413 by protein kinase A is not required for presynaptic long-term plasticity or learningRedundant functions of RIM1alpha and RIM2alpha in Ca(2+)-triggered neurotransmitter releaseEndocannabinoid-mediated metaplasticity in the hippocampusAssessing the role of Ih channels in synaptic transmission and mossy fiber LTP.Inhibitory Plasticity Permits the Recruitment of CA2 Pyramidal Neurons by CA3(1,2,3)Estradiol modulation of phenylephrine-induced excitatory responses in ventromedial hypothalamic neurons of female ratsModulating excitation through plasticity at inhibitory synapses.Hippocampal Area CA2: An Overlooked but Promising Therapeutic Target.Bi-directional interplay between proximal and distal inputs to CA2 pyramidal neurons.Heterogeneity in Kv2 Channel Expression Shapes Action Potential Characteristics and Firing Patterns in CA1 versus CA2 Hippocampal Pyramidal NeuronsAge-Dependent Specific Changes in Area CA2 of the Hippocampus and Social Memory Deficit in a Mouse Model of the 22q11.2 Deletion Syndrome.Strong CA2 pyramidal neuron synapses define a powerful disynaptic cortico-hippocampal loop.Developmental regulation of a local positive autocontrol of supraoptic neurons.Interplay between presynaptic and postsynaptic activities is required for dendritic plasticity and synaptogenesis in the supraoptic nucleus.Delta-opioid receptors mediate unique plasticity onto parvalbumin-expressing interneurons in area CA2 of the hippocampus.A single in-vivo exposure to delta 9THC blocks endocannabinoid-mediated synaptic plasticity.Voltage-dependent calcium channels in ventromedial hypothalamic neurones of postnatal rats: modulation by oestradiol and phenylephrine.Protein kinase A regulates calcium permeability of NMDA receptors.Chronic Loss of CA2 Transmission Leads to Hippocampal Hyperexcitability.Combinatorial analysis of developmental cues efficiently converts human pluripotent stem cells into multiple neuronal subtypes.Correlation between electrophysiological and morphological characteristics during maturation of rat supraoptic neurons.
P50
Q24564778-6971A785-ADD7-4D17-A7FB-E31D59F839F4Q26269928-B9C7105C-CCC4-4F4B-B252-91FF1D69B1D7Q26269947-EA6D0FCC-8263-475C-96E8-9959F5B6645FQ28281747-767AB817-39E9-4C22-925C-C426632B59FEQ34036054-589C9F2C-4A17-4BBE-99BB-E9EEEC2104D6Q36129742-0495188C-4FE9-4B1F-B103-EAC65428776DQ36734779-2BE5D962-6078-469D-9909-D104A11F07FCQ37683535-B8C2D9C3-9C66-4C0B-9834-9607ABF267B8Q38884376-BA586669-1B55-4320-869B-1519FA2D9BEFQ39647716-EE07746D-CC63-43BC-9B3D-09493F8F2E32Q41506272-079DD991-4CBD-4516-8257-8C62CBB3AD6BQ41844490-0AED3C21-0873-4C52-9AEC-2AD4312CA1EDQ42206348-1F3124C3-80D3-41CE-9090-3B641052ED98Q42491037-85935C85-3356-478D-9CD6-840358933587Q43833753-60A81A5B-CBCA-4D25-A76A-F5F405E8AE85Q44341049-13B0944C-74A7-42AF-9ED6-C45E8DDB3B91Q44898084-87BD5E1A-9195-454A-B447-9F44C9A8D0F6Q46844293-6FB24BB6-9771-4AC3-8A6F-29B925659BE3Q46987195-2544444D-BEFF-43D3-AF83-E65ADE845A0CQ50584926-A169C176-912A-43CE-B5AD-1DE556A87A3CQ50624483-0DA0494C-6397-4E67-9BFF-7523C5A5D927Q52137317-5A80AAAF-F29C-4AB4-B763-311538E1F17B
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Vivien Chevaleyre
@ast
Vivien Chevaleyre
@en
Vivien Chevaleyre
@es
Vivien Chevaleyre
@nl
type
label
Vivien Chevaleyre
@ast
Vivien Chevaleyre
@en
Vivien Chevaleyre
@es
Vivien Chevaleyre
@nl
prefLabel
Vivien Chevaleyre
@ast
Vivien Chevaleyre
@en
Vivien Chevaleyre
@es
Vivien Chevaleyre
@nl
P106
P31
P496
0000-0002-3679-4856