about
sameAs
The Role of Astrocytes in the Generation, Migration, and Integration of New Neurons in the Adult Olfactory BulbThe Role of Adult-Born Neurons in the Constantly Changing Olfactory Bulb NetworkBrain-derived neurotrophic factor promotes vasculature-associated migration of neuronal precursors toward the ischemic striatumPrincipal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb.Reduced perisomatic inhibition, increased excitatory transmission, and impaired long-term potentiation in mice deficient for the extracellular matrix glycoprotein tenascin-RTenascin-R mediates activity-dependent recruitment of neuroblasts in the adult mouse forebrainLocal neurons play key roles in the mammalian olfactory bulb.Time-lapse imaging of neuroblast migration in acute slices of the adult mouse forebrain.Motion-free endoscopic system for brain imaging at variable focal depth using liquid crystal lenses.Integrating new neurons into the adult olfactory bulb: joining the network, life-death decisions, and the effects of sensory experience.Newborn neurons in the adult olfactory bulb: unique properties for specific odor behavior.The extracellular matrix glycoprotein tenascin-R affects adult but not developmental neurogenesis in the olfactory bulb.Astrocytes control the development of the migration-promoting vasculature scaffold in the postnatal brain via VEGF signaling.Neuronal fate determinants of adult olfactory bulb neurogenesis.Recognition molecule associated carbohydrate inhibits postsynaptic GABA(B) receptors: a mechanism for homeostatic regulation of GABA release in perisomatic synapses.Reduced GABAergic transmission and number of hippocampal perisomatic inhibitory synapses in juvenile mice deficient in the neural cell adhesion molecule L1.Role of sensory activity on chemospecific populations of interneurons in the adult olfactory bulb.Reactive glia in the injured brain acquire stem cell properties in response to sonic hedgehog. [corrected].Tracking neuronal migration in adult brain slices.Delayed onset of odor detection in neonatal mice lacking tenascin-C.Activity-dependent adjustments of the inhibitory network in the olfactory bulb following early postnatal deprivation.The extracellular matrix molecule tenascin-R and its HNK-1 carbohydrate modulate perisomatic inhibition and long-term potentiation in the CA1 region of the hippocampus
P50
Q26752598-B889B321-D622-4710-BB14-8B332FA335A1Q26769961-159FB2B6-2E5D-4B3C-A547-7A9FBC73513FQ27317806-50625857-3A19-424F-BEBF-2CDFFB4C71FBQ27329838-3ABDF266-317C-47FB-8020-0B56DF0BEA95Q28586377-4DA2B051-E7A0-4AB8-B50D-75AC9323788FQ28594145-7D1BF163-4E1E-4406-94C8-FA154249125AQ33431841-8335CC22-492C-4093-B0EB-834606A47827Q34420585-100A24C5-B658-4CE1-A0BC-A3547F383915Q35949511-FFB22D5B-23DE-41AD-B8E5-68E54C896390Q36113375-99D45076-290B-4E63-9E21-2AC10B640CA6Q37917878-2D3D8BA9-6FBF-4765-BDA8-5E8BF07434EFQ38314689-156B9F38-DFC6-4C6A-B0F1-8687BB26D1D5Q38328027-0EC3E04C-C9C9-4202-8E97-EC4ACCFC402FQ40410529-39E8F750-A0E4-4B7D-AEB2-F92956292B74Q40624212-66788B3B-BDCA-46AC-AE7D-A0DF7A3E21A3Q42461040-1529410B-AFD5-4450-B76B-C93121531B06Q45915377-31E21FAC-8748-47DD-B0C0-3480A3D8C30EQ45985961-6167B751-DDE3-4C45-9DC2-93A3F15E7171Q48252350-5F4B2FD9-3272-4DF7-B183-76C6DEAB1CA5Q48520479-3290CA42-332B-4D1D-B1C9-4BBABF6CECD6Q48934198-5FF8615E-2559-42F3-8E3E-7D805C73A3F4Q57899272-05AD996D-E6D0-4144-83FB-917F10B9439B
P50
description
chercheuse et professeure d'université
@fr
researcher and university professor
@en
wetenschapper
@nl
name
Armen K Saghatelyan
@ast
Armen K Saghatelyan
@nl
Armen Saghatelyan
@en
Armen Saghatelyan
@fr
type
label
Armen K Saghatelyan
@ast
Armen K Saghatelyan
@nl
Armen Saghatelyan
@en
Armen Saghatelyan
@fr
prefLabel
Armen K Saghatelyan
@ast
Armen K Saghatelyan
@nl
Armen Saghatelyan
@en
Armen Saghatelyan
@fr
P106
P214
P108
P1153
6602429810
P21
P213
0000 0000 1484 9700
0000 0003 5081 200X
P214
P31
P496
0000-0003-4962-0465
P569
1972-01-01T00:00:00Z