about
Unexpected benefits of intermittent hypoxia: enhanced respiratory and nonrespiratory motor functionAdaptive cellular stress pathways as therapeutic targets of dietary phytochemicals: focus on the nervous systemNeurotrophic effects of a cyanine dye via the PI3K-Akt pathway: attenuation of motor discoordination and neurodegeneration in an ataxic animal modelDysconnection in schizophrenia: from abnormal synaptic plasticity to failures of self-monitoringNew concepts of neural regulation in human nasal mucosa.Pathogenic mechanisms of idiopathic nonallergic rhinitisThe genome sequence of the protostome Daphnia pulex encodes respective orthologues of a neurotrophin, a Trk and a p75NTR: evolution of neurotrophin signaling components and related proteins in the bilateria.Neurotrophic effect of citrus 5-hydroxy-3,6,7,8,3',4'-hexamethoxyflavone: promotion of neurite outgrowth via cAMP/PKA/CREB pathway in PC12 cellsCytokine signaling through the JAK/STAT pathway is required for long-term memory in Drosophila.Cervical spinal erythropoietin induces phrenic motor facilitation via extracellular signal-regulated protein kinase and Akt signaling.Duality of Antidepressants and Neuroprotectants.Neonatal vaccination with bacille Calmette-Guérin promotes the dendritic development of hippocampal neurons.Microglia enhance neurogenesis and oligodendrogenesis in the early postnatal subventricular zone.Chronic murine toxoplasmosis is defined by subtle changes in neuronal connectivity.Changes in mitochondrial function are pivotal in neurodegenerative and psychiatric disorders: how important is BDNF?Intervertebral disc, sensory nerves and neurotrophins: who is who in discogenic pain?Preclinical studies modeling deep brain stimulation for depression.New hypothesis and treatment targets of depression: an integrated view of key findings.Bioactivity-guided fractionation identifies amygdalin as a potent neurotrophic agent from herbal medicine Semen Persicae extractNeuroregulation of human nasal mucosa.Spinal vascular endothelial growth factor (VEGF) and erythropoietin (EPO) induced phrenic motor facilitation after repetitive acute intermittent hypoxia.No requirement of interlukine-1 for long-term potentiation in the anterior cingulate cortex of adult mice.
P2860
Q27000674-EB2E9622-8667-42BA-A766-56EAC00B75BFQ28389419-1C209E8A-9841-4C2D-8BD1-46F1E8C84094Q28742839-6C2B8D1E-9B3A-4A90-801D-182111445F44Q28754716-046F15DE-4F05-479C-AF1B-6C528CC2E9EEQ30427716-FD1DE2EC-48FF-48FB-BC77-7A6021501F75Q30452355-A6245A13-A411-436F-8CDF-2E8BF5462952Q33508938-CF10016B-FE99-4725-82D8-CEABDE0D3AC0Q34091438-AB62CE07-70E6-45B5-9374-170B5F5D3355Q34978039-D4DE9DEE-C185-4927-9410-C18BCEFE3A54Q36422327-B08E81F9-D054-487C-BF60-27A4622E2C83Q36944840-25DFC1EB-3148-47FE-BA25-7C4CAE237C56Q37130270-2B49DACB-F827-43D9-AC41-43198A83FC1FQ37555017-E87F9E35-46FC-48CA-9A9D-1812F0CF412BQ37682383-04FB3A12-E8AC-4E65-88FF-6EA1BA6002DDQ37686303-709BF234-B0DC-4F31-84A2-A944A9CFA488Q37747851-C8C89E43-B471-462D-8454-D1B0A3116F59Q38022840-2D0C983E-2903-4D0E-BBA2-95792F4D9B6FQ38313116-E2702D15-6ED3-4773-A444-B37ED7C045EEQ41958943-301763D0-231C-4BCC-A734-66444016534EQ42046566-ABC8B1E1-775A-43C6-8229-FAAF49B76F64Q42880647-B5020668-6DE6-4505-A041-84C568741317Q51730970-ACE71616-79CD-42CB-94E5-98D613B13DC5
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Neurotrophins and cytokines in neuronal plasticity.
@en
Neurotrophins and cytokines in neuronal plasticity.
@nl
type
label
Neurotrophins and cytokines in neuronal plasticity.
@en
Neurotrophins and cytokines in neuronal plasticity.
@nl
prefLabel
Neurotrophins and cytokines in neuronal plasticity.
@en
Neurotrophins and cytokines in neuronal plasticity.
@nl
P1476
Neurotrophins and cytokines in neuronal plasticity.
@en
P2093
Michael Spedding
P304
222-33; discussion 233-40
P577
2008-01-01T00:00:00Z