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RESEARCH ARTICLES The Drosophila agnostic Locus: Involvement in the Formation of Cognitive Defects in Williams Syndrome Е. А. Nikitina1,2*, A. V. Medvedeva1,3, G. А. Zakharov1,3, Е. V. Savvateeva-Popova1,3
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Or-R / Oregon-R / New York / Neuroreport / Berlin / St. Petersburg / /

Company

Soboleva S.A. / EXPERIMENTAL Drosophila / Logitech / Dyuzhikova N.A. / allforGenbank / Creative Commons / Genetic Data GenBank / /

Country

Russia / Germany / /

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Event

Diplomatic Relations / /

Facility

Saint-Petersburg State University / Pavlov Institute of Physiology / V. Savvateeva-Popova1 / 3 Pavlov Institute of Physiology RAS / Herzen State Pedagogical University / /

IndustryTerm

Statistical processing / treatment of cardiovascular disease / /

MedicalCondition

KEYWORDS Williams syndrome / Human Williams Syndrome / locomotor and cognitive manifestations / Williams Syndrome / genome disorders / genome diseases / Williams-Beuren syndrome / genomic disorders / cardiovascular disease / abrupt cognitive impairment / genetic syndrome / cognitive manifestation / human deletion Williams syndrome / syndrome / human disease / disorders / /

Organization

Saint-Petersburg State University / Pavlov Institute of Physiology / Russian Academy of Sciences / National Center for Biotechnology Information / Savvateeva-Popova1 / 3 Pavlov Institute of Physiology RAS / Herzen State Pedagogical University / CS / Russian Foundation for Basic Research / /

Person

Can Drosophila / /

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Position

Model for Human Williams Syndrome // Rus / Model / /

Product

triad / adenosine / /

ProvinceOrState

Oregon / /

Technology

Neuroscience / Biotechnology / Simulation / recombination / /

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http /

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