Metabolic control of vesicular glutamate transport and release. - Wikidata - awgldk - TriplyDB

Metabolic control of vesicular glutamate transport and release.

Metabolic control of vesicular glutamate transport and release.

http://www.wikidata.org/entity/Q42370957

about

Lactate Effectively Covers Energy Demands during Neuronal Network Activity in Neonatal Hippocampal Slices Presynaptic Molecular Determinants of Quantal Size Synaptic vesicle recycling: steps and principles Harnessing the power of metabolism for seizure prevention: focus on dietary treatments SLC17: a functionally diverse family of organic anion transporters New tools for investigating astrocyte-to-neuron communication.Metabolic Therapy for Temporal Lobe Epilepsy in a Dish: Investigating Mechanisms of Ketogenic Diet using Electrophysiological Recordings in Hippocampal Slices Epilepsy treatment. Targeting LDH enzymes with a stiripentol analog to treat epilepsy Mechanisms of Action of Antiseizure Drugs and the Ketogenic Diet Neural Signaling Metabolites May Modulate Energy Use in Hibernation.Glutamate Release.The Concise Guide to PHARMACOLOGY 2013/14: transporters.BAD-dependent regulation of fuel metabolism and K(ATP) channel activity confers resistance to epileptic seizures.Neuroactive peptides as putative mediators of antiepileptic ketogenic diets.Use of the Ketogenic Diet to Treat Intractable Epilepsy in Mitochondrial Disorders Glutamate metabolism and HIV-associated neurocognitive disorders.Non-ketogenic combination of nutritional strategies provides robust protection against seizures.Questioning the depolarizing effects of GABA during early brain development.GABAergic transmission and chloride equilibrium potential are not modulated by pyruvate in the developing optic tectum of Xenopus laevis tadpoles.Ketone bodies as signaling metabolites.Redistribution of monocarboxylate transporter 2 on the surface of astrocytes in the human epileptogenic hippocampus Neurobiochemical mechanisms of a ketogenic diet in refractory epilepsy Seizure control by decanoic acid through direct AMPA receptor inhibition Ketogenic diets: from cancer to mitochondrial diseases and beyond.Ketogenic diet improves core symptoms of autism in BTBR mice.Activation of toll like receptor 4 attenuates GABA synthesis and postsynaptic GABA receptor activities in the spinal dorsal horn via releasing interleukin-1 beta.AtPHT4;4 is a chloroplast-localized ascorbate transporter in Arabidopsis.A ketogenic diet reduces long-term potentiation in the dentate gyrus of freely behaving rats.Plasmodium falciparum chloroquine resistance transporter is a H+-coupled polyspecific nutrient and drug exporter.A ketogenic diet suppresses seizures in mice through adenosine A₁ receptors.Protection of hypoglycemia-induced neuronal death by β-hydroxybutyrate involves the preservation of energy levels and decreased production of reactive oxygen species Purines and neuronal excitability: links to the ketogenic diet Ketone bodies mediate antiseizure effects through mitochondrial permeability transition.The nervous system and metabolic dysregulation: emerging evidence converges on ketogenic diet therapy.Glial glutamate transporter and glutamine synthetase regulate GABAergic synaptic strength in the spinal dorsal horn.Altered expression of brain monocarboxylate transporter 1 in models of temporal lobe epilepsy Ketogenic diet in a patient with congenital hyperinsulinism: a novel approach to prevent brain damage Inhibition of NMDA-type glutamate receptors induces arousal from torpor in hibernating arctic ground squirrels (Urocitellus parryii).Ketogenic diets, mitochondria, and neurological diseases.Ketogenic diet sensitizes glucose control of hippocampal excitability.

P2860

Q21129444-005EDC48-85D6-4424-84B8-3D22F3169283 Q26768188-B16232C1-AD3A-4537-B288-E7BF25461039 Q26825177-508FFE80-3455-4382-B425-C141E9BED650 Q26991869-F72970F5-94D7-48A7-B745-95CF39272B10 Q27023513-DA54E302-1B7A-479B-B3B8-D12C7A0E9827 Q27690725-0A2B5034-EB83-4341-AB01-B0D48C12D911 Q28071552-E8C55BA7-DCA0-4082-991C-920AC54CB8FF Q28259250-86A8FDCA-244E-4E23-86D0-9BD36587DB70 Q28272457-531DDF33-7DD6-47A5-B188-891FB9AD6DFA Q30240771-322294DE-44D9-4D2C-B18D-7EEB5701CA46 Q30279297-F630A96A-6FEE-458F-B15B-9248A6823440 Q30486743-DD4E74CA-56F8-4E30-A49C-A89EB7EC8D4A Q30514237-5A81A6D3-4796-47F8-991F-B6D06F9AACB1 Q33569276-AF374C3B-3B64-4C4A-9DEA-4BC5AB181CAD Q33832704-A711CF46-647A-4F12-B17D-E0C30D86EB04 Q33903612-67FEBF7A-BDAE-4943-B322-B901AFBDF128 Q33905611-9A498503-E9EC-4CCD-9E99-AC4B911B297B Q34185983-76E84B39-44F8-44E0-ADCE-803F585C2001 Q34230094-10410629-CB3F-4748-9277-FF1C330537E0 Q34252732-15B578C7-6407-4CE5-9405-9B49803F42FA Q34270955-FBD57108-3991-4831-A541-A80741E2E01E Q34457747-5165365E-D0E6-4EF8-B5D3-ECF39EECBE29 Q34503147-3B3387B1-2A57-4E66-82E2-20A7D5A85AEA Q34509699-B3FCD9A4-9174-4AE7-944E-F802AE987143 Q34766019-B702A2AB-4B34-48DD-B759-BAEEBBD7616B Q34997571-3FB89C29-E8A3-424E-BEFB-BE2CD9166A7B Q35020612-EE269A45-B41B-4C45-85E1-E5AB69903D80 Q35160483-38404DF9-9E39-4780-9A0B-68FFE9909ACB Q35212623-34677276-FD61-4C83-BA9B-290C6B582F67 Q35572467-65FE9D3D-B1C8-43BC-8168-3168740C0162 Q35572816-A0B79EE3-6CF4-4A82-B551-EAEFF10381F5 Q35624347-02A5457B-E63E-4657-A7D3-825B4EE3BCD1 Q35779437-131977ED-CA93-4D78-9D52-15AE15B4256D Q35852049-99A7374E-386C-42D9-BC52-27AE7FFB8520 Q35886026-E0106287-D54A-45B0-820D-FB9F6F2F360B Q35955691-C2E6830D-AA13-4056-9DCA-97333EC57F24 Q36087987-3D3B35B4-48B3-4B5B-B8AA-3C97B5AA4996 Q36177102-71F9EA24-F26F-4E9F-A834-A784D1B023CF Q36196765-1AF5C49D-60D3-4E37-8774-6738A4D0B39F Q36196783-1CF857A3-928B-49CC-940D-958EBC00243A

P2860

Metabolic control of vesicular glutamate transport and release.

http://www.wikidata.org/entity/Q42370957

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

2010年论文

@zh

2010年论文

@zh-cn

name

Metabolic control of vesicular glutamate transport and release.

@en

Metabolic control of vesicular glutamate transport and release.

@nl

type

label

Metabolic control of vesicular glutamate transport and release.

@en

Metabolic control of vesicular glutamate transport and release.

@nl

prefLabel

Metabolic control of vesicular glutamate transport and release.

@en

Metabolic control of vesicular glutamate transport and release.

@nl

P1433

Q42370957-78BF5433-972D-467F-8E1A-C6D61B255C78

P1476

Q42370957-129F0568-461C-46A8-8E46-99FE07896850

P2093

Q42370957-2ADA9FAA-C3FB-4C67-AD99-03F5699AB819

Q42370957-3A920CC1-95CC-414A-B21E-73FECC58F641

Q42370957-3EACBE11-2DA9-4992-8BB5-B427F5C35B67

Q42370957-5D991BB5-2772-461A-9D86-96957A5382ED

Q42370957-B7F14023-B7DF-4F5E-AFD2-75FCF3016BC2

Q42370957-C869F978-A8E1-4221-9A11-7A337BE0EB14

Q42370957-D11FA6E0-0E70-4415-8A7A-BE44B44BFDC4

Q42370957-D526D712-644C-440A-B7EB-6E27607ED095

Q42370957-EDC97D39-F865-4F0B-89AE-6A40AC592B38

P2860

Q42370957-0B8BB134-44AE-4E1E-A6EE-209E0EEBB62B

Q42370957-0D3BE349-2E8C-458C-8EB4-3692583FE5A2

Q42370957-14E4993F-E746-489A-A351-77FD1F7F3034

Q42370957-1694F57D-789B-4AD0-A6C1-C858A2625A27

Q42370957-1F311DC5-9E43-45CB-99E4-916EB908A1FC

Q42370957-21D9FD90-2064-4BFE-9EE5-9C6CDE0FBC82

Q42370957-21EEA1DF-65F0-47E7-9E7F-86BE084975DB

Q42370957-2571678A-65B6-472E-855C-4B32F86D02A0

Q42370957-25C992DC-6AB7-4CCE-960C-FC81E0B56FDF

Q42370957-28BAE221-E4D6-475E-BB1C-5A0B74282951

P304

Q42370957-0B85053A-E38A-4415-A105-5BA9D473CA0A

P31

Q42370957-00877C93-04A2-4DAE-9034-C3169C853353

P356

Q42370957-0032B1BF-B1F2-4B75-B7B5-3B7C831781CF

P407

Q42370957-BACDD7D8-39C8-4743-A49C-5F80209C275D

P433

Q42370957-FB628CE8-2611-4D26-88CC-0827C2B6CE6C

P478

Q42370957-ADC4F74E-376C-4E96-A672-6FD83ED53A5F

P50

Q42370957-6B8407AB-8876-4E8D-BB98-9D7F125B6483

P577

Q42370957-1E03B43D-0F94-48D7-9D13-754309F085AA

P5875

Q42370957-F9F22BE2-B150-4C06-A462-EFFED3C8002A

P698

Q42370957-A65D389D-18D0-4BC6-8F15-1C1943973006

P932

Q42370957-CA8ACFE3-8303-4C34-BB53-7832911106A0

P356

J.NEURON.2010.09.002

P1433

P1476

Metabolic control of vesicular glutamate transport and release

@en

P2093

Chiaki Hara

http://www.w3.org/2001/XMLSchema#string

Hiroshi Omote

http://www.w3.org/2001/XMLSchema#string

Hisayuki Uneyama

http://www.w3.org/2001/XMLSchema#string

Narinobu Juge

http://www.w3.org/2001/XMLSchema#string

Robert H Edwards

http://www.w3.org/2001/XMLSchema#string

Roger A Nicoll

http://www.w3.org/2001/XMLSchema#string

Takaaki Miyaji

http://www.w3.org/2001/XMLSchema#string

Tsuyoshi Inoue

http://www.w3.org/2001/XMLSchema#string

Yoshinori Moriyama

http://www.w3.org/2001/XMLSchema#string

P2860

A ketogenic diet as a potential novel therapeutic intervention in amyotrophic lateral sclerosis

The vesicular amine transporter family (SLC18): amine/proton antiporters required for vesicular accumulation and regulated exocytotic secretion of monoamines and acetylcholine

An Overview of the Ketogenic Diet for Pediatric Epilepsy

Molecular cloning and functional characterization of human vesicular glutamate transporter 3.

Identification of a vesicular aspartate transporter

Neuroprotective and disease-modifying effects of the ketogenic diet

Docking and homology modeling explain inhibition of the human vesicular glutamate transporters

Synapsin I (protein I), a nerve terminal-specific phosphoprotein. III. Its association with synaptic vesicles studied in a highly purified synaptic vesicle preparation

The neuropharmacology of the ketogenic diet

Molecular targets for antiepileptic drug development

P304

99-112

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.NEURON.2010.09.002

http://www.w3.org/2001/XMLSchema#string

P407

P433

1

http://www.w3.org/2001/XMLSchema#string

P478

68

http://www.w3.org/2001/XMLSchema#string

P50

P577

2010-10-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

47336001

http://www.w3.org/2001/XMLSchema#string

P698

20920794

http://www.w3.org/2001/XMLSchema#string

P932

2978156

http://www.w3.org/2001/XMLSchema#string