Brain glutamine synthesis requires neuronal-born aspartate as amino donor for glial glutamate formation.
about
Heptanoate as a neural fuel: energetic and neurotransmitter precursors in normal and glucose transporter I-deficient (G1D) brainCentral Role of Glutamate Metabolism in the Maintenance of Nitrogen Homeostasis in Normal and Hyperammonemic BrainThe regulation of neuronal mitochondrial metabolism by calciumQuantitative analysis of neurotransmitter pathways under steady state conditions - a perspectiveThe role of glutamine synthetase and glutamate dehydrogenase in cerebral ammonia homeostasisDe novo Synthesis of Glial Glutamate and Glutamine in Young Mice Requires Aspartate Provided by the Neuronal Mitochondrial Aspartate-Glutamate Carrier Aralar/AGC1Unraveling the complex metabolic nature of astrocytesFluxes of lactate into, from, and among gap junction-coupled astrocytes and their interaction with noradrenalineIn Vivo Detection of Perinatal Brain Metabolite Changes in a Rabbit Model of Intrauterine Growth Restriction (IUGR)Determinants of brain cell metabolic phenotypes and energy substrate utilization unraveled with a modeling approachStructural plasticity of perisynaptic astrocyte processes involves ezrin and metabotropic glutamate receptors.Astrocytic energetics during excitatory neurotransmission: What are contributions of glutamate oxidation and glycolysis?Brain lactate metabolism: the discoveries and the controversies.Fueling and imaging brain activation.The Glutamate-Glutamine (GABA) Cycle: Importance of Late Postnatal Development and Potential Reciprocal Interactions between Biosynthesis and Degradation.Glutamate and GABA in Appetite Regulation.Metabolic Flux and Compartmentation Analysis in the Brain In vivo.Glutamine-Glutamate Cycle Flux Is Similar in Cultured Astrocytes and Brain and Both Glutamate Production and Oxidation Are Mainly Catalyzed by Aspartate AminotransferaseFatty acids in energy metabolism of the central nervous systemThe role(s) of astrocytes and astrocyte activity in neurometabolism, neurovascular coupling, and the production of functional neuroimaging signals.BLOC-1 deficiency causes alterations in amino acid profile and in phospholipid and adenosine metabolism in the postnatal mouse hippocampus.Glutamate metabolism and HIV-associated neurocognitive disorders.Ménage à trois: the role of neurotransmitters in the energy metabolism of astrocytes, glutamatergic, and GABAergic neurons.Pyruvate kinase and aspartate-glutamate carrier distributions reveal key metabolic links between neurons and glia in retina.Brain glutamine synthesis requires neuronal aspartate: a commentary.Energy metabolism and glutamate-glutamine cycle in the brain: a stoichiometric modeling perspective.Altered postnatal development of cortico-hippocampal neuronal electric activity in mice deficient for the mitochondrial aspartate-glutamate transporter.Rapid and robust generation of long-term self-renewing human neural stem cells with the ability to generate mature astroglia.Regulation of brain glutamate metabolism by nitric oxide and S-nitrosylationEffects of serotonin 2A/1A receptor stimulation on social exclusion processingCortical metabolism in pyruvate dehydrogenase deficiency revealed by ex vivo multiplet (13)C NMR of the adult mouse brainCytosolic reducing power preserves glutamate in retina.Deficient glucose and glutamine metabolism in Aralar/AGC1/Slc25a12 knockout mice contributes to altered visual functionMethodological limitations in determining astrocytic gene expressionInhibition of mitochondrial pyruvate transport by zaprinast causes massive accumulation of aspartate at the expense of glutamate in the retinaThe metabolism of neurons and astrocytes through mathematical models.Fluctuations in Cytosolic Calcium Regulate the Neuronal Malate-Aspartate NADH Shuttle: Implications for Neuronal Energy Metabolism.Metabolic and Inflammatory Adaptation of Reactive Astrocytes: Role of PPARs.Aerobic glycolysis during brain activation: adrenergic regulation and influence of norepinephrine on astrocytic metabolism.Multifactorial Effects on Different Types of Brain Cells Contribute to Ammonia Toxicity.
P2860
Q22337252-C7682AC0-BCE4-4649-A0E5-E411AE704F79Q26749567-E9CCC4F4-661C-4F7E-B571-15358BC00853Q26823765-CCD8C1DF-1DD5-45DF-B748-39D5465FD92DQ26824792-271186D2-6DDF-422B-82CD-D658224B5EA4Q26851324-EEE949B8-D019-429F-BA59-F5860407C44AQ26852738-BA3179F7-1D0B-447F-8045-F95D3AC8A2EDQ26866532-A168724B-D1A4-4FB7-A271-AD68229970AEQ27007080-A35F8D6A-196D-429D-8789-50FB73B859FDQ27303663-578633C0-3F72-4F20-9850-E390A6487B2EQ28483736-B9AE478F-BA18-48B5-9B6F-EE234DED3991Q28582615-7CD09A02-8221-4C3D-8838-092C2FC7FABBQ30429932-220E8F0E-7008-4C1B-9624-C4FB79188801Q30452931-783A2AC4-82B7-4532-9627-30E1D6A008A5Q30465578-95EA003A-3890-47A8-9222-3B447D004356Q30643822-203C7E3F-BB6F-498F-B110-115EF9D8B651Q30662832-96C6FD56-B43A-412D-9A98-33F0080838A7Q30689361-3D0BCEEE-BC4F-4916-AA9B-204548AFC62FQ31168099-924299AC-66B3-44A0-A50B-9375ED77027BQ33634475-B0D8E62D-18F6-4D56-B267-29765AE18C1BQ33818616-62EA9860-06EE-4728-B503-BD1456F8EA60Q33899339-B96E6C26-B30D-450D-80B8-0ABFA8DDBAEEQ33903612-B5A654C0-B929-4007-BC81-C884F13DC3FFQ34219179-38334AF4-AB7D-442A-8D7B-D9C65B12366EQ34442074-E0FD9B2D-19A0-4416-98FB-2C9CA6A339A0Q34627490-D03B00B3-371A-4197-8A6A-4642988976F3Q35013625-DBE8F23C-BFA0-4F72-B72B-1BB98B6B5A06Q35738304-CAEB98E0-0995-471B-8C1E-FD76EFC26994Q36254742-2955320F-BD63-403A-80B7-EF2B4B16CF85Q36560287-2F803275-2D7C-49C0-9751-F895DECEFF53Q37173225-E321FA59-3C3F-4807-9875-58210A2C41E1Q37277647-2D54F13A-DF91-4928-B418-C27C253E7F28Q37319656-FAC61295-9AF9-472F-8FE2-0E75D210C810Q37337161-27DA58D5-124C-4FDF-9AC8-0E164CDCE765Q37340252-9761A686-16A8-4DEE-8372-422868812453Q37388865-3B1F410F-5BF8-408D-A8A9-D2B2ECE2065DQ38045780-D2EC4FF9-E8ED-42E0-8BD4-2DEF08D1DCD0Q38542199-141F3B75-65A9-4D71-AF17-7A56EF5B9003Q38777732-F012B3F2-BF44-4A05-A372-A49A9FA425C0Q38831616-2BAFDAF0-7FDA-4D13-9742-C858E707C7A6Q38861352-24112517-49A1-4CDD-8EB2-9996E3E3C88D
P2860
Brain glutamine synthesis requires neuronal-born aspartate as amino donor for glial glutamate formation.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
Brain glutamine synthesis requ ...... for glial glutamate formation.
@en
Brain glutamine synthesis requ ...... for glial glutamate formation.
@nl
type
label
Brain glutamine synthesis requ ...... for glial glutamate formation.
@en
Brain glutamine synthesis requ ...... for glial glutamate formation.
@nl
prefLabel
Brain glutamine synthesis requ ...... for glial glutamate formation.
@en
Brain glutamine synthesis requ ...... for glial glutamate formation.
@nl
P2093
P2860
P50
P356
P1476
Brain glutamine synthesis requ ...... for glial glutamate formation
@en
P2093
Beatriz Pardo
Irene Llorente-Folch
Keiko Kobayashi
Miguel Garzón
Takeyori Saheki
P2860
P304
P356
10.1038/JCBFM.2010.146
P577
2010-08-25T00:00:00Z