about
sameAs
Illuminating odors: when optogenetics brings to light unexpected olfactory abilitiesNxnl2 splicing results in dual functions in neuronal cell survival and maintenance of cell integrityTenascin-R mediates activity-dependent recruitment of neuroblasts in the adult mouse forebrainSubpallial origin of a population of projecting pioneer neurons during corticogenesis.NKCC1 controls GABAergic signaling and neuroblast migration in the postnatal forebrain.Local neurons play key roles in the mammalian olfactory bulb.Information processing in the mammalian olfactory system.Cellular and behavioral effects of cranial irradiation of the subventricular zone in adult mice.Origin and function of olfactory bulb interneuron diversity.Persistent Structural Plasticity Optimizes Sensory Information Processing in the Olfactory BulbIs adult neurogenesis essential for olfaction?Olfactory learning promotes input-specific synaptic plasticity in adult-born neurons.The impact of adult neurogenesis on olfactory bulb circuits and computations.Disruption of Adult Neurogenesis in the Olfactory Bulb Affects Social Interaction but not Maternal BehaviorMaking scents of olfactory neurogenesis.Olfactory processing in a changing brain.Inflammation-induced subventricular zone dysfunction leads to olfactory deficits in a targeted mouse model of multiple sclerosis.Dynamic development of the first synapse impinging on adult-born neurons in the olfactory bulb circuitGABAergic inhibition at dendrodendritic synapses tunes gamma oscillations in the olfactory bulb.Using affordable LED arrays for photo-stimulation of neuronsInhibitory interneurons in the olfactory bulb: from development to function.Selective viral transduction of adult-born olfactory neurons for chronic in vivo optogenetic stimulationIntegrating new neurons into the adult olfactory bulb: joining the network, life-death decisions, and the effects of sensory experience.Adult neurogenesis and functional plasticity in neuronal circuits.Nicotinic receptors regulate the survival of newborn neurons in the adult olfactory bulb.Adjusting neurophysiological computations in the adult olfactory bulb.Control of early events in olfactory processing by adult neurogenesis.The how and why of adult neurogenesis.Neuronal replacement in microcircuits of the adult olfactory system.Fragile X mental retardation protein regulates new neuron differentiation in the adult olfactory bulb.A niche for adult neurogenesis in social behavior.Centrifugal drive onto local inhibitory interneurons of the olfactory bulb.Postnatal neurogenesis: from neuroblast migration to neuronal integration.Adult-born neurons in the olfactory bulb: integration and functional consequences.Adult neurogenesis in the olfactory system shapes odor memory and perception.BM88/Cend1 expression levels are critical for proliferation and differentiation of subventricular zone-derived neural precursor cells.GABAB Receptors Tune Cortical Feedback to the Olfactory Bulb.Connective tissue growth factor regulates interneuron survival and information processing in the olfactory bulb.MARK2/Par-1 guides the directionality of neuroblasts migrating to the olfactory bulb.Abnormal neuronal migration changes the fate of developing neurons in the postnatal olfactory bulb.
P50
Q26748564-D25E1DCA-5D5A-459C-B41D-46161D59EF87Q28507884-1DE8646C-7FD1-4562-AD57-E5EAF6744C1FQ28594145-DA44D59B-31D4-4577-B894-BC3A722F2F8FQ30481040-A8A455FE-0C23-49C3-B39B-570B747FCFEBQ30498179-C8958127-3C56-4396-A6DC-268B05F74732Q33431841-E34B75BA-DB7F-4D05-AAAE-E296080722BDQ33432678-63377422-5FA2-4E15-AE53-62D446EC1079Q33503232-ED27172D-6120-4546-A0DD-2FBF4A03E5F9Q33761405-BFBCF30C-AC3E-49E5-BFC1-8F3A9DE0B639Q33813523-3FCDEB76-C3C3-4ACF-BD48-BEA7C967634FQ34146079-8D0C27DC-46DC-4411-A0CF-E0990104405CQ34281299-D6F66F18-4533-4E5F-92CF-DA0285BEC1D0Q34314189-C6791B6D-20DD-4ED8-9880-D9470E2B9B8CQ34405271-C25A0B94-77C5-4DD0-B192-F14D7E846718Q34470103-9FFC4297-1FC1-4460-9289-5621DA7C2C5AQ35544996-7BAE7EFA-8EE7-4D03-85A2-EA79C585947CQ35578626-14BAC7E8-A13F-4945-8FB2-FD743B4E1794Q35753629-ADFC2E52-E7ED-402D-8D67-3D369AF5BF31Q35758630-E0D4C475-D0F0-4C69-9542-36EA77E42B9BQ35841569-F5A6C0AB-4E4E-46F1-B905-957A87EBC793Q35843991-D8437FA9-7680-4B81-8D55-1625BF77719CQ36015085-75FEAF33-DD2E-4959-9206-DF12212BEB5CQ36113375-19D21EAE-6198-4EF3-AC88-174188C7F9A2Q36404122-57349627-06EA-460F-A3CC-62F4F39BD8BFQ36449156-0CFF82B8-CF3D-41B8-A0A5-74E15F0F98FCQ36498618-5A4045D1-55C9-4BB7-A5B2-10AC8F390066Q36778517-4A9EB233-2CE3-4EF0-988B-033D8F6346B3Q36867013-8942E49A-81B0-4BC4-8A1B-F6CB4BC867BDQ36881890-49C1FE41-B57A-4D4D-8CE6-D6AB360C9FF9Q36928564-F2F42613-A87E-4A8D-A1F3-202F9F42E93BQ37448656-8D0DF367-8ECF-4CC3-B0A9-B6CCC184856CQ37580973-2532A8FF-4367-44D8-8934-37BE3B45940CQ37732179-6D95E319-BA12-49D2-ADE2-D4C71D12B2CCQ38043362-9811CC3A-6765-44C9-B478-3C6DBB77D4C7Q38207246-39D9558D-B24F-4C70-A689-E4FBF2FAB85AQ38290668-FA3F6E03-9E96-4D5A-9D68-0690AFD3C7A9Q38291311-F2C72CCD-9FA3-473B-9C8A-E6EC50AA0634Q38312954-4F0D9412-52CD-4C33-96CA-C0BFCDE68484Q38330488-DEDDA448-9895-4B9A-9B5F-20FD65F244FCQ38335057-00811CD4-EE60-4BAF-AE80-A00CB023141B
P50
description
Chercheur
@fr
French PHYSIOLOGIST & NEUROSCIENTIST
@en
neurowetenschapper
@nl
name
Pierre-Marie LLEDO
@nl
Pierre-Marie Lledo
@ast
Pierre-Marie Lledo
@de
Pierre-Marie Lledo
@en
Pierre-Marie Lledo
@es
Pierre-Marie Lledo
@fr
Pierre-Marie Lledo
@it
type
label
Pierre-Marie LLEDO
@nl
Pierre-Marie Lledo
@ast
Pierre-Marie Lledo
@de
Pierre-Marie Lledo
@en
Pierre-Marie Lledo
@es
Pierre-Marie Lledo
@fr
Pierre-Marie Lledo
@it
altLabel
Pierre-Marie LLEDO
@ast
Pierre-Marie LLEDO
@en
Pierre-Marie LLEDO
@es
prefLabel
Pierre-Marie LLEDO
@nl
Pierre-Marie Lledo
@ast
Pierre-Marie Lledo
@de
Pierre-Marie Lledo
@en
Pierre-Marie Lledo
@es
Pierre-Marie Lledo
@fr
Pierre-Marie Lledo
@it
P106
P21
P31
P4124
pierre-marie-lledo_65359
P496
0000-0002-8156-7003
P5463
Lledo_Pierre-Marie
P569
1962-01-06T00:00:00Z