delta-Opioid receptors protect from anoxic disruption of Na+ homeostasis via Na+ channel regulation - Wikidata - awgldk - TriplyDB

delta-Opioid receptors protect from anoxic disruption of Na+ homeostasis via Na+ channel regulation

delta-Opioid receptors protect from anoxic disruption of Na+ homeostasis via Na+ channel regulation

http://www.wikidata.org/entity/Q34700747

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Non-pharmaceutical therapies for stroke: mechanisms and clinical implications.Current research on opioid receptor function.delta-Opioid receptor activation attenuates oxidative injury in the ischemic rat brain.Ionic storm in hypoxic/ischemic stress: can opioid receptors subside it?δ-opioid receptor activation and microRNA expression of the rat cortex in hypoxia A novel insight into neuroprotection against hypoxic/ischemic stress.δ-Opioid receptor activation modified microRNA expression in the rat kidney under prolonged hypoxia.Hydrogen sulfide induced disruption of Na+ homeostasis in the cortex.DOR activation inhibits anoxic/ischemic Na+ influx through Na+ channels via PKC mechanisms in the cortex Expression of voltage-gated sodium channel Nav1.3 is associated with severity of traumatic brain injury in adult rats Inhibition of Activity of GABA Transporter GAT1 by δ-Opioid Receptor.Electroacupuncture-induced attenuation of experimental epilepsy: a comparative evaluation of acupoints and stimulation parameters.δ-Opioid receptor activation rescues the functional TrkB receptor and protects the brain from ischemia-reperfusion injury in the rat Delta opioid receptor and its peptide: a receptor-ligand neuroprotection Neuroprotection against hypoxia/ischemia: δ-opioid receptor-mediated cellular/molecular events.From Acupuncture to Interaction between δ-Opioid Receptors and Na (+) Channels: A Potential Pathway to Inhibit Epileptic Hyperexcitability.δ-Opioid receptors up-regulate excitatory amino acid transporters in mouse astrocytes.Delta Opioid Receptor and Peptide: A Dynamic Therapy for Stroke and Other Neurological Disorders.Attenuating Ischemic Disruption of K+ Homeostasis in the Cortex of Hypoxic-Ischemic Neonatal Rats: DOR Activation vs. Acupuncture Treatment.

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delta-Opioid receptors protect from anoxic disruption of Na+ homeostasis via Na+ channel regulation

http://www.wikidata.org/entity/Q34700747

description

2009 nî lūn-bûn

@nan

2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի նոյեմբերին հրատարակված գիտական հոդված

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2009年の論文

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2009年論文

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2009年論文

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2009年論文

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2009年論文

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2009年論文

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2009年论文

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name

delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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type

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

@ast

delta-Opioid receptors protect ...... sis via Na+ channel regulation

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

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Cellular and Molecular Life Sciences

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delta-Opioid receptors protect ...... sis via Na+ channel regulation

@en

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Dongman Chao

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Gianfranco Balboni

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Guanghong Ding

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Lawrence H Lazarus

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Quanbao Gu

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Xuezhi Kang

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Ying Xia

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Yingwei Wang

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P2860

Rapid hypoxia preconditioning protects cortical neurons from glutamate toxicity through delta-opioid receptor

Morphine preconditions Purkinje cells against cell death under in vitro simulated ischemia-reperfusion conditions.

Acupuncture analgesia: I. The scientific basis.

Microinjection into Xenopus oocytes and embryos.

Identification of an Nav1.1 sodium channel (SCN1A) loss-of-function mutation associated with familial simple febrile seizures

The roles of sodium channels in nociception: Implications for mechanisms of pain

Delta opioid peptide (D-Ala 2, D-Leu 5) enkephalin: linking hibernation and neuroprotection.

Ion channels and epilepsy.

Activation of DOR attenuates anoxic K+ derangement via inhibition of Na+ entry in mouse cortex.

delta-Opioid receptor antagonism induces NMDA receptor-dependent excitotoxicity in anoxic turtle cortex.

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s00018-009-0136-x

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3505-3516

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scholarly article

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10.1007/S00018-009-0136-X

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21

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66

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2009-11-01T00:00:00Z

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19756387

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3061309

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