The role of glutamate in central nervous system health and disease--a review
about
Pediatric Autoimmune Disorders Associated with Streptococcal Infections and Tourette's Syndrome in Preclinical Studies.Central neuromodulatory pathways regulating sympathetic activity in hypertensionGlutamate excitotoxicity inflicts paranodal myelin splitting and retractionGlutamate, T cells and multiple sclerosis.Effects of immunonutrition on biomarkers in traumatic brain injury patients in Malaysia: a prospective randomized controlled trial.The glutamatergic neurons in the spinal cord of the sea lamprey: an in situ hybridization and immunohistochemical study.Oxidative stress in schizophrenia: an integrated approach.Riluzole mediates anti-tumor properties in breast cancer cells independent of metabotropic glutamate receptor-1.Increased transforming growth factor-β1 modulates glutamate receptor expression in the hippocampusMetabotropic glutamate receptor 5 shows different patterns of localization within the parallel visual pathways in macaque and squirrel monkeys.Conformation of protonated glutamic acid at room and cryogenic temperatures.How does motion affect GABA-measurements? Order statistic filtering compared to conventional analysis of MEGA-PRESS MRS.A novel target for Huntington's disease: ERK at the crossroads of signaling. The ERK signaling pathway is implicated in Huntington's disease and its upregulation ameliorates pathologyPharmacology of traumatic brain injury: where is the "golden bullet"?Involvement of ROS in BBB dysfunction.Calpain and the glutamatergic synapseWhen and why amino acids?The neurotransmitter glutamate and human T cells: glutamate receptors and glutamate-induced direct and potent effects on normal human T cells, cancerous human leukemia and lymphoma T cells, and autoimmune human T cells.Genetic dys-regulation of astrocytic glutamate transporter EAAT2 and its implications in neurological disorders and manganese toxicityGlutamate receptor antibodies in neurological diseases: anti-AMPA-GluR3 antibodies, anti-NMDA-NR1 antibodies, anti-NMDA-NR2A/B antibodies, anti-mGluR1 antibodies or anti-mGluR5 antibodies are present in subpopulations of patients with either: epilepIn the grey zone between epilepsy and schizophrenia: alterations in group II metabotropic glutamate receptors.Metabolic Modifications in Human Biofluids Suggest the Involvement of Sphingolipid, Antioxidant, and Glutamate Metabolism in Alzheimer's Disease Pathogenesis.Evidence for cognitive resource imbalance in adolescents with narcolepsy.Excitotoxic and Radiation Stress Increase TERT Levels in the Mitochondria and Cytosol of Cerebellar Purkinje Neurons.A Novel Tool to Measure Extracellular Glutamate in the Zebrafish Nervous System In Vivo.Metal toxicity at the synapse: presynaptic, postsynaptic, and long-term effects.Nitric oxide (no), citrulline - no cycle enzymes, glutamine synthetase and oxidative stress in anoxia (hypobaric hypoxia) and reperfusion in rat brain.Quantifying absolute glutamate concentrations in nucleus accumbens of prescription opioid addicts by using 1H MRS.Glutamate joins the ranks of immunomodulators.Stability and Solution Structure of Binary and Ternary Cu(II) Complexes with l-Glutamic Acid and Diamines as Well as Adducts in Metal-Free Systems in Aqueous Solution.Thalamic interactions of cerebellum and basal ganglia.Neuroprotective potential of astroglia.Arundic Acid Increases Expression and Function of Astrocytic Glutamate Transporter EAAT1 Via the ERK, Akt, and NF-κB Pathways.Hippocampal glutamate level and glutamate aspartate transporter (GLAST) are up-regulated in senior rat associated with isoflurane-induced spatial learning/memory impairment.Rats with different thresholds to clonic convulsions induced by DMCM differ in the binding of [3H]-MK-801 and [3H]-ouabain in the membranes of brain regions.Interactions Between Epilepsy and Plasticity.Characterisation of the DAACS Family Escherichia coli Glutamate/Aspartate-Proton Symporter GltP Using Computational, Chemical, Biochemical and Biophysical Methods.Discovering functional neuronal connectivity from serial patterns in spike train data.Nerve growth factor alters the sensitivity of rat masseter muscle mechanoreceptors to NMDA receptor activation.mGlu3 receptor blockade inhibits proliferation and promotes astrocytic phenotype in glioma stem cells.
P2860
Q26738436-BB5C9043-0033-4E2C-A8B7-56C7E6894B22Q27021580-3D1C5BAA-5375-4BAD-9E4B-6CA137633D56Q28475977-4EEB4E3C-D805-4159-8AA1-395F45D3CDDAQ31165986-0DB7FC43-163B-415C-8B28-1D0F2F8839BCQ33805170-F8177D51-22F8-48F6-A42A-348DBE57A1F8Q34460707-A230FA8E-EA4E-443C-A210-CDC7E35FED47Q34494844-6C8EABC6-7AC6-43D1-BD1C-ACCFF18BEB15Q34525011-CD38752F-4913-47BF-9600-66F546659433Q34747895-FDAAB35A-DAFB-48C8-817E-A8694E15BBF0Q35169595-5A368C43-D5BF-42E7-95DD-33D56F4AA9EBQ36262307-DD6BAEA6-454C-4C45-9891-A6AE63A26455Q36375632-C7BC484C-3288-4300-8264-87EAB2451796Q37012760-EECA34CF-E351-42F1-BDE5-9C2698159DD7Q37260316-8D8776C1-39C3-405A-B060-3C0EAE2CBC6BQ37400756-2757886B-19B1-4A24-995D-8F0C3DBC8531Q37502232-6257ADF7-F480-4CA2-93C0-7E08599A0A60Q37613300-99D3AA0A-63EE-4A0E-9A8D-1B321C21C2ECQ38192495-964ED18A-ED33-4802-93C2-78B1EC95D504Q38234167-A2C0EFF3-C563-4992-AC98-FA0D7EF8174DQ38235715-A99AE2E0-44B0-499E-AE80-FD6CB6CE063BQ38300355-8B362784-5255-4935-89A8-5A785DD862E3Q38401864-0B07AEFC-CE38-44E3-90B8-1649C0D1FD76Q38891973-A69B4A2D-0EBD-4338-A31B-2E579C31BA8CQ39019332-F8F8799A-776C-4BF3-84F5-1CDFEE34D3D5Q40394182-77233979-4A89-4DF0-865C-EC6723BB3387Q40582666-2D6C2B6F-790B-47D2-A2FA-6E296816F4E8Q40886436-C23B85ED-4E1D-48F7-B167-87EF62828FF0Q41449171-4AB7F52C-79F4-4524-9521-8A73A7AA71F6Q42334125-2282F192-DAE2-4446-876C-5D3D7036A87BQ43054568-FEDF017B-2B41-4224-969A-1FE34BAFE7DDQ47336501-7031AC67-D310-4D87-8D0D-E4B96C03E36AQ47916378-3F018249-8006-463C-B278-C2C2011372E7Q47947143-A9A555C7-9916-4398-89A4-E166A4E9313EQ48123221-0950137E-CAE6-4D9C-A453-D0EB7EAEB2C8Q48632613-D3EC8E57-0B66-4684-82A6-89A65F635303Q50133892-0CBD55DE-89EB-4BCB-AFAB-0AE2C0B63295Q51065999-F68AF233-9F5D-45B3-9D0A-5812CBD13208Q51096057-66F92208-6F09-4933-92AB-8E3B192E2431Q51120655-B75384D8-5410-448D-9B69-FC39DF051699Q53068726-34CCC358-36DA-4409-909C-D24558D98755
P2860
The role of glutamate in central nervous system health and disease--a review
description
2007 nî lūn-bûn
@nan
2007 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի մարտին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
The role of glutamate in central nervous system health and disease--a review
@ast
The role of glutamate in central nervous system health and disease--a review
@en
The role of glutamate in central nervous system health and disease--a review
@nl
type
label
The role of glutamate in central nervous system health and disease--a review
@ast
The role of glutamate in central nervous system health and disease--a review
@en
The role of glutamate in central nervous system health and disease--a review
@nl
prefLabel
The role of glutamate in central nervous system health and disease--a review
@ast
The role of glutamate in central nervous system health and disease--a review
@en
The role of glutamate in central nervous system health and disease--a review
@nl
P3181
P1476
The role of glutamate in central nervous system health and disease--a review
@en
P304
P3181
P356
10.1016/J.TVJL.2005.11.007
P407
P577
2007-03-01T00:00:00Z