Genome-Wide Association Studies Identify CHRNA5/3 and HTR4 in the Development of Airflow Obstruction | Zendy

Nora Franceschini | Zendy; Amy R. Bentley | Zendy; Lorna M. Lopez | Zendy; Amund Gulsvik | Zendy; Ivan Curjuric | Zendy; Tamara B. Harris | Zendy; Ani Manichaikul | Zendy; Laura R. Loehr | Zendy; Daan W. Loth | Zendy; Nick Shrine | Zendy; Michael H. Cho | Zendy; Per Bakke | Zendy; Jemma B. Wilk | Zendy; Gail Davies | Zendy; Wenbo Tang | Zendy; Susan R. Heckbert | Zendy; Ting-hsu Chen | Zendy; Terri H. Beaty | Zendy; James D. Crapo | Zendy; Melinda C. Aldrich | Zendy; Amanda P. Henry | Zendy; Jing Zhao | Zendy; Ingrid B. Borecki | Zendy; David Couper | Zendy; Jeanne C. Latourelle | Zendy; Guy Brusselle | Zendy; Albert V. Smith | Zendy; Jennie Hui | Zendy; Josée Dupuis | Zendy; Kristin M. Burkart | Zendy; Dana B. Hancock | Zendy; Joanna Smolonska | Zendy

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Genome-Wide Association Studies Identify CHRNA5/3 and HTR4 in the Development of Airflow Obstruction

Author(s) -

Nora Franceschini,

Amy R. Bentley,

Lorna M. Lopez,

Amund Gulsvik,

Ivan Curjuric,

Tamara B. Harris,

Ani Manichaikul,

Laura R. Loehr,

Daan W. Loth,

Nick Shrine,

Michael H. Cho,

Per Bakke,

Jemma B. Wilk,

Gail Davies,

Wenbo Tang,

Susan R. Heckbert,

Ting-hsu Chen,

Terri H. Beaty,

James D. Crapo,

Melinda C. Aldrich,

Amanda P. Henry,

Jing Zhao,

Ingrid B. Borecki,

David Couper,

Jeanne C. Latourelle,

Guy Brusselle,

Albert V. Smith,

Jennie Hui,

Josée Dupuis,

Kristin M. Burkart,

Dana B. Hancock,

Joanna Smolonska

Publication year - 2020

Publication title -

unc libraries

Language(s) - English

DOI - 10.17615/n8t6-g528

Subject(s) - genome wide association study , genetics , association (psychology) , genome , genetic association , airflow , biology , computational biology , single nucleotide polymorphism , gene , engineering , psychology , genotype , mechanical engineering , psychotherapist

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