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Cerebellum / Proteins / Nervous system / Vascular endothelial growth factor / Purkinje cell / Ataxin / Angiogenesis / VEGF receptors / Granule cell / Anatomy / Biology / Angiology


B r i e f c o m m u n i c at i o n s Vascular endothelial growth factor ameliorates the ataxic phenotype in a mouse model of spinocerebellar ataxia type 1
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Document Date: 2012-12-18 11:57:21

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City

Heidelberg / Maywood / Chicago / /

Company

IgG / Nature America Inc. / /

Country

Germany / United States / /

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Facility

Scale bar / University of Medicine / Baylor College of Medicine / University of Minnesota / Loyola University / University of Heidelberg / /

IndustryTerm

phosphorylation site / functional magnetic resonance imaging / advance online publication models / advance online publication / energy metabolism / /

MedicalCondition

disease / neurodegenerative disease / ataxia type / amyotrophic lateral sclerosis / spinocerebellar ataxia type / ataxia pathways / ataxias / cerebellar dysfunction / /

Organization

Harvard Medical School / Loyola University Chicago Stritch School of Medicine / University of Heidelberg / US National Organization for Rare Disorders / 1Davee Department of Neurology / Baylor College of Medicine / Pathology and Cardinal Bernardin Cancer Center / US National Ataxia Foundation / University of Medicine and Dentistry of New Jersey / University of Minnesota / Northwestern University Feinberg School of Medicine / /

Person

T. Spann / /

Position

AUTHOR / Vegfa luciferase reporter / VEGF luciferase reporter / representative / reporter / fellow scientist / /

ProvinceOrState

New Jersey / Minnesota / Illinois / /

PublishedMedium

the Bonferroni post / Molecular Biology / /

Technology

laser / magnetic resonance imaging / DNA Chip / gene expression / genotype / /

URL

http /

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