Human Genome-Wide Association and Mouse Knockout Approaches Identify Platelet Supervillin as an Inhibitor of Thrombus Formation Under Shear Stress | Zendy

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Human Genome-Wide Association and Mouse Knockout Approaches Identify Platelet Supervillin as an Inhibitor of Thrombus Formation Under Shear Stress

Author(s) -

Leonard C. Edelstein,

Elizabeth J. Luna,

Ian B. Gibson,

Molly S. Bray,

Ying Jin,

Altaf A. Kondkar,

Srikanth Nagalla,

Nacima Hadjout-Rabi,

Tara C. Smith,

Daniel Covarrubias,

Stephen N. Jones,

Firdos Ahmad,

Moritz Stolla,

Xiao–Tang Kong,

Zhiyou Fang,

Wolfgang Bergmeier,

Chad A. Shaw,

Suzanne M. Leal,

Paul F. Bray

Publication year - 2012

Publication title -

carolina digital repository (university of north carolina at chapel hill)

Language(s) - English

DOI - 10.17615/b6de-6048

Subject(s) - thrombus , shear stress , platelet , knockout mouse , genome wide association study , shear (geology) , biology , genetics , medicine , cardiology , materials science , gene , genotype , immunology , composite material , single nucleotide polymorphism , paleontology

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