Intermediate filaments are important for astrocyte response to oxidative stress induced by oxygen-glucose deprivation and reperfusion. - Wikidata - wikimedia - TriplyDB

Intermediate filaments are important for astrocyte response to oxidative stress induced by oxygen-glucose deprivation and reperfusion.

Intermediate filaments are important for astrocyte response to oxidative stress induced by oxygen-glucose deprivation and reperfusion.

http://www.wikidata.org/entity/Q44587135

about

Reactive astrocytes and therapeutic potential in focal ischemic stroke Reactive astrocytes promote axonal remodeling and neurological recovery after stroke Beneficial effects of gfap/vimentin reactive astrocytes for axonal remodeling and motor behavioral recovery in mice after stroke.Axonal regeneration after sciatic nerve lesion is delayed but complete in GFAP- and vimentin-deficient mice The HIF-1 inhibitor YC-1 decreases reactive astrocyte formation in a rodent ischemia model The role of astrocytes in mediating exogenous cell-based restorative therapy for stroke The Histochem Cell Biol conspectus: the year 2013 in review.Astrocytes, therapeutic targets for neuroprotection and neurorestoration in ischemic stroke.Astrocytes: a central element in neurological diseases."Targeting astrocytes in CNS injury and disease: A translational research approach".Lessons from Animal Models of Cytoplasmic Intermediate Filament Proteins.The Role of Astrocytes in Neuroprotection after Brain Stroke: Potential in Cell Therapy.GFAP expression in injured astrocytes in rats.In focus in Prague: intermediate filaments.Induction of Krüppel-like factor 4 expression in reactive astrocytes following ischemic injury in vitro and in vivo.In vitro investigation of the mechanism underlying the effect of ginsenoside on the proliferation and differentiation of neural stem cells subjected to oxygen-glucose deprivation/reperfusion.Increased Neuronal Differentiation of Neural Progenitor Cells Derived from Phosphovimentin-Deficient Mice.Injury Leads to the Appearance of Cells with Characteristics of Both Microglia and Astrocytes in Mouse and Human Brain.Effect of Physical and Social Components of Enriched Environment on Astrocytes Proliferation in Rats After Cerebral Ischemia/Reperfusion Injury.Attenuation of reactive gliosis in stroke-injured mouse brain does not affect neurogenesis from grafted human iPSC-derived neural progenitors.Complement Peptide C3a Promotes Astrocyte Survival in Response to Ischemic Stress.Cortical Bilateral Adaptations in Rats Submitted to Focal Cerebral Ischemia: Emphasis on Glial Metabolism.Paracrine Factors Secreted by MSCs Promote Astrocyte Survival Associated With GFAP Downregulation After Ischemic Stroke via p38 MAPK and JNK.The effect of dexmedetomidine post-treatment on the inflammatory response of astrocyte induced by lipopolysaccharide.Important Shapeshifter: Mechanisms Allowing Astrocytes to Respond to the Changing Nervous System During Development, Injury and Disease Fatty Acid Increases cAMP-dependent Lactate and MAO-B-dependent GABA Production in Mouse Astrocytes by Activating a G Protein-coupled Receptor

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Intermediate filaments are important for astrocyte response to oxidative stress induced by oxygen-glucose deprivation and reperfusion.

http://www.wikidata.org/entity/Q44587135

description

2013 nî lūn-bûn

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2013年の論文

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年学术文章

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2013年學術文章

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2013年學術文章

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Intermediate filaments are imp ...... e deprivation and reperfusion.

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Intermediate filaments are imp ...... e deprivation and reperfusion.

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Intermediate filaments are imp ...... e deprivation and reperfusion.

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Intermediate filaments are imp ...... e deprivation and reperfusion.

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Histochemistry and Cell Biology

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Intermediate filaments are imp ...... e deprivation and reperfusion.

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Michael Nilsson

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Milos Pekny

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Yolanda de Pablo

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P2860

Molecular dissection of reactive astrogliosis and glial scar formation

Introducing intermediate filaments: from discovery to disease

Glial cells in (patho)physiology

Astrocytes: biology and pathology

Axonal plasticity and functional recovery after spinal cord injury in mice deficient in both glial fibrillary acidic protein and vimentin genes.

Synemin is expressed in reactive astrocytes in neurotrauma and interacts differentially with vimentin and GFAP intermediate filament networks

Reducing excessive GABA-mediated tonic inhibition promotes functional recovery after stroke.

Attenuating astrocyte activation accelerates plaque pathogenesis in APP/PS1 mice.

Glial fibrillary acidic protein is greatly modified by oxidative stress in aceruloplasminemia brain.

How important is oxidative damage? Lessons from Alzheimer's disease.

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